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IMPORTANT NOTE: Conference program updates must be frozen in order to send data to the printer. Since then, a few changes have been implemented due to last minute cancellations. The most recent changes are listed here.
Tuesday 8:00 AM - 9:15 AM
Plenary I
8:00
| Welcoming Remarks Cynthia Twohy, Conference Chair. Oregon State University.
| 8:05
| Recent Advances in Biological Aerosol Research Sergey Grinshpun. University of Cincinnati.
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| Moderator: Lupita Montoya. University of Colorado at Boulder.
| 9:00
| Presentation of new AAAR Fellows Da Ren Chen, Awards Committee Chair. Washington University.
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Tuesday 9:15 AM - 3:15 PM
Exhibits Open
Tuesday 9:15 AM - 9:45 AM
Coffee Break
Tuesday 9:45 AM - 11:30 AM
Session 1: Platform
1A AEROSOLS, CLOUDS AND CLIMATE I
B 113/114
V. Faye McNeill and Tim Raymond, chairs
1A.1
9:45 | Nucleation Near Clouds during VOCALS: Favored Environments and Relations to Sizes Active as CCN. A.D. CLARKE, S. Freitag, V. Brekhovskikh, V. Kapustin, S.Howell, L. Shank, B. Blomquist, M. Yang, B. Huebert, University of Hawaii, Honolulu, HI
| 1A.2
10:00 | Measurements of Cloud Condensation Nuclei Activity and Hygroscopicity of Fresh Unprocessed Regional Dust Samples and Clays. PRASHANT KUMAR (1), Irina N. Sokolik (2), Athanasios Nenes (1, 2), (1) School of Chemical & Biomolecular Engineering, Georgia Institute of Technology, Atlanta, GA (2) School of Earth & Atmospheric Sciences, Georgia Institute of Technology, Atlanta, GA
| 1A.3
10:15 | On the effect of insoluble dust particles on global CCN and droplet number. VLASSIS KARYDIS (1), Prashant Kumar (2), Donifan Barahona (2), Irina Sokolik (1), Athanasios Nenes (1,2), Rafaela Sotiropoulou (3), (1) School of Earth and Atmospheric Sciences, Georgia Institute of Technology, Atlanta, GA, USA, (2) School of Chemical and Biomolecular Engineering, Georgia Institute of Technology, Atlanta, GA, USA, (3) National Centre of Scientific Research “Demokritos”, Aghia Paraskevi, Attiki, Greece
| 1A.4
10:30 | The Hygroscopic Properties of Volcanic Ash and Implications for the Evolution of Volcanic Plumes in the Atmosphere. TERRY L LATHEM (1), Prashant Kumar (2), Josef Dufek (1), Irina Sokolik (1), Athanasios Nenes (1,2), (1) Georgia Institute of Technology, School of Earth and Atmospheric Sciences, (2) Georgia Institute of Technology, School of Chemical and Biomolecular Engineering
| 1A.5
10:45 | Estimating the Coalescence Scavenging Rate and its Implications. DAVID LEON (1), Jeff Snider (1), (1) University of Wyoming, Laramie
| 1A.6
11:00 | Numerical Simulations of Stratocumulus Cloud Response to Aerosol Perturbations. Mirek Andrejczuk (1), Laura Stevens (1), Ben Parkes (1), ALAN GADIAN (1), John Latham (2) and Alan Blyth (1), (1) Environment, University of Leeds, UK (2) NCAR, MMM Division, Boulder
| 1A.7
11:15 | Electric Charge Modulation of Aerosol Scavenging in Clouds: Rate Coefficients with Monte-Carlo Simulation of Diffusion. BRIAN TINSLEY (1), (1) University of Texas at Dallas, Richardson
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1B CARBONACEOUS AEROSOLS IN THE ATMOSPHERE I
B 115/116
Kerri Pratt and Nicole Riemer, chairs
1B.1
9:45 | Chemical Analysis of PM2.5 from Controlled Burns of Southwest Biomass Fuels using a High Resolution Time-of-Flight Aerosol Mass Spectrometer. Li Qi(1), SeyedEhsan Hosseini(2), Heejung Jung(2), Bob Yokelson(3), David Weise(4), David Cocker III(1), (1) Department of Chemical and Environmental Engineering, Bourns College of Engineering, Center for Environmental Research and Technology (CE-CERT), University of California, Riverside (2) Department of Mechanical Engineering, Bourns College of Engineering, Center for Environmental Research and Technology (CE-CERT), University of California, Riverside (3) Department of Chemistry, University of Montana, Missoula (4) Foreset Fire Laboratory, 4955 Canyon Crest Drive, Riverside, CA
| 1B.2
10:00 | Kinetics of Secondary Organic Aerosol Evaporation and the Effect of Adsorbed Gases. ALLA ZELENYUK (1), Tim Vaden (1), Josef Beranek (1), Dan Imre (2), (1) Pacific Northwest National Laboratory, (2) Imre Consulting
| 1B.3
10:15 | Characterizing Sources and Processes of Organic Nitrogen Components in Atmospheric Aerosols with High Resolution Aerosol Mass Spectrometry. Yele Sun (1), QI ZHANG (1), (1) Department of Environmental Toxicology, University of California, Davis, CA 95616, USA
| 1B.4
10:30 | Secondary Organic Aerosol Formation from Photo-oxidation of Diesel Fuels: Engineering fuels to limit secondary organic aerosol formation. MARISSA MIRACOLO (1), Allen Robinson (1), (1) Carnegie Mellon University
| 1B.5
10:45 | Gas/Particle Partitioning of Glyoxal and Other Bifunctional Oxygenates in an Urban Environment in Hong Kong. JIAN ZHEN YU (1), H. S. Simon Ip (1), X. H. Hilda HUANG (1), (1) Hong Kong University of Science & Technology, Hong Kong
| 1B.6
11:00 | Reducing Polycyclic Aromatic Hydrocarbons (PAH) Content of Fuels: An Avenue to Reduce SOA Formation in Urban Centers?. ANTONIO H. MIGUEL (1), Arantza Eiguren-Fernandez (1) , (1) University of California, Los Angeles
| 1B.7
11:15 | Stationary and mobile studies of black carbon containing particles with the Soot Particle Aerosol Mass Spectrometer (SP-AMS) in Queens, NY. LEAH R WILLIAMS (1) Paola Massoli (1) Edward C. Fortner (1) N. L. Sally Ng (1) John T. Jayne (1) Timothy B. Onasch (1) Manjula R. Canagaratna (1) Achim Trimborn (1) Douglas R. Worsnop (1), (1) Aerodyne Research, Inc., Billerica, MA
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1C AEROSOL PHYSICS I
A 106
Anshuman Lall and Barbara Wyslouzil, chairs
1C.1
9:45 | Measurement for Metallic Nanoparticle Agglomerates Generated from Spark-discharge using the Universal NanoParticle Analyzer (UNPA). ZHUN LIU (1), Seong Chan Kim (1), Jing Wang (1), Heinz Fissan (2), David Y. H. Pui (1), (1) University of Minnesota, (2) Institut für Energie- und Umwelttechnik eV (IUTA)
| 1C.2
10:00 | Fragmentation and Restructuring of Soft-agglomerates under Shear. MAX EGGERSDORFER (1), Dirk Kadau (1), Hans J. Herrmann (1), Sotiris E. Pratsinis (1), (1) ETH Zurich, Switzerland
| 1C.3
10:15 | Characterization of Progeny Droplets Resulting from In-flight Drop Electrospraying. OLEG KIM (1), Patrick Dunn (1), University of Notre Dame
| 1C.4
10:30 | Aerosol Particle Confinement and Kinematics in a Linear Electrodynamic Quadrupole. MATTHEW B. HART(1), Horn-Bond Lin(1), and Jay Eversole(1), (1) Naval Research Laboratory, Washington DC
| 1C.5
10:45 | Laser Separation of Non-Absorbing Micron-Size Aerosol Particles:. Anshuman A. Lall (1), Alex V. Terray (2), Sean J. Hart (3), (1) Excet, Inc. Springfield, VA (2) Naval Research Laboratory, Washigton, DC (3) Naval Research Laboratory, Washigton, DC
| 1C.6
11:00 | Digital Multiplexed Electrospray. WEIWEI DENG (1), C. Mike Waits (2), Alessandro Gomez (3), (1) Yale University (Current affiliation: University of Central Florida), (2) Army Research Laboratory, (3) Yale University
| 1C.7
11:15 | Nonane and Deutirium Oxide Droplet Growth in a Supersonic Nozzle. HARSHAD PATHAK (1), Dirk Bergmann (2), Barbara Wyslouzil (1), Judith Wolk (2), Reinhard Strey (2), (1) The Ohio state University, Columbus (2) Universtat zu Koln, Germany
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1D INSTRUMENTATION AND METHODS I
B 110/111/112
Hiromu Sakurai and James Pankow, chairs
1D.1
9:45 | Enabling In-Situ Observation of Organic Aerosol Speciated Composition: Advances in TAG Instrumentation. Allen H. Goldstein (1), David R. Worton (1), Yunliang Zhao (1), Gabriel Isaacman (1), Nathan M. Kreisberg (2), Susanne V. Hering (2), Tadeusz Górecki (3), Jose-Luis Jimenez (4), John Jayne (5), Brent Williams (5), Andrew Lambe (5), Leah Williams (5), Doug Worsnop (5), (1) University of California, Berkeley, (2) Aerosol Dynamics Inc., (3) University of Waterloo, (4) University of Colorado, (5) Aerodyne Research Inc.
| 1D.2
10:00 | Application of Pentafluorobenzyl Bromide (PFBBr) as a Derivatization Reagent for Relatively Low Molecular Weight Carboxylic Acids in Ambient Atmospheric Particulate Matter. ALEXANDRA J. BORIS (1), Cai Chen (1), Lorne M. Isabelle (1), Wentai Luo (1), James F. Pankow (1), (1) Department of Chemistry, Portland State University
| 1D.3
10:15 | Measurement of Biogenic Volatile Organic Compounds by Adsorption/Thermal Desorption Followed by GCxGC-TOFMS. JAMES F. PANKOW (1), Wentai Luo (1), Lorne M. Isabelle (1), Andrea Melnychenko (2), Todd N. Rosenstiel (2), Kelley C. Barsanti (1) , (1) Dept. of Chemistry and Dept. of Civil & Environmental Engineering, Portland Sate University (2) Dept. of Biology, Portland Sate University
| 1D.4
10:30 | Achieving Near Real-time Aerosol Analysis Through the Use of a Continuous Flow Electrophoresis Microchip. Mallory M. Mentele (1), Scott D. Noblitt (1), Jeffrey L. Collett (1), CHARLES S. HENRY (1), (1) Colorado State University
| 1D.5
10:45 | Chemical Characterization by Particle into Liquid Sampling Directly Coupled to an Accurate Mass Time-of-Flight Mass Spectrometer (PILS-ToF) of Secondary Organic Aerosol (SOA). Christopher H. Clark (1,2), Shunsuke Nakao (1,2), Kei Sato(3), Li Qi(1,2), Akua Asa-Awuku(1,2), David R. Cocker, III (1,2), (1) University of California–Riverside, College of Engineering–Center for Environmental Research and Technology (CE–CERT), (2) University of California–Riverside, Department of Chemical and Environmental Engineering (3) Asian Environment Research Group, National Institute for Environmental Studies, Ibaraki, Japan
| 1D.6
11:00 | Development of a Micro Orifice Volatilization Impactor - Chemical Ionization -High Resolution Time of Flight Mass Spectrometer (MOVI-CI-HToFMS) for In-situ Detection of Gas and Particle Phase Organic Matter. REDDY L. N. YATAVELLI(1), Joel Thornton(2), Joel Kimmel(3), Timothy Bertram(4), Mark Gonin(5), Doug Worsnop(6), (1) University of Washington, Seattle, WA (2) University of Washington, Seattle, WA (3) Aerodyne Research Inc, Billerica, MA and Tofwerk AG, Switzerland (4) University of California, San Diego, CA (5) Tofwerk AG, Switzerland (6) Aerodyne Research Inc, Billerica, MA
| 1D.7
11:15 | High-Time Resolution Determination of Ions in Matrix Challenged Ambient Air Samples Using the Ion Chromatography Based URG Ambient Ion Monitor. Russell W. Long (1), Matthew S. Landis (1), Christopher R. Fortune (2), Julie M. Stone (3) , (1) U.S. EPA, National Exposure Research Laboratory, Research Triangle Park, NC 27711 (2) Alion Science and Technology, Research Triangle Park, NC 27711 (3) URG Corporation, Chapel Hill, NC 27516
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1E HEALTH RELATED AEROSOLS I
B 117/118/119
Jordan Peccia and Chang-Yu Wu, chairs
1E.1
9:45 | Effects of relative humidity and nebulized medium on UV decontamination of aerosolized viruses loaded on a filter. MYUNG-HEUI WOO(1), Tamara Smith(1), Adam Grippin(1), Diandra Anwar(1), Chang-Yu Wu(1), (1) University of Florida, Gainesville
| 1E.2
10:00 | Concentration of enterovirus in air samples and exhaled samples. Pei-Shih Chen (1), CHIA YU CHEN (1), (1) Kaohsiung Medical University, Taiwan
| 1E.3
10:15 | Viability of Aerosolized Bordatella pertussis and Indications of Gene Level Control of Putative Environmental Survival Factors. KEVIN M. MCCABE (1), Jane Turner (1), Mark Hernandez (1) and Tod J. Merkel (2), (1) Civil, Environmental and Architectural Engineering Department, University of Colorado, Boulder, Colorado (2) Laboratory of Respiratory Pathogens, United States Food and Drug Administration Bethesda, Maryland
| 1E.4
10:30 | Particle Size Distribution and Seasonal Concentrations of Airborne Fungi in the Northeastern United States. NAOMICHI YAMAMOTO (1) (2), Jing Qian (1), Denina Hospodsky (1), Jordan Peccia (1), (1) Yale University, (2) Japan Society for the Promotion of Science (JSPS)
| 1E.5
10:45 | Comparison of Physical and Viable Bioaerosol Particle Counts in Antimicrobial and Conventional Respirator Testing: Limits of Confidence. MICHAEL B. LORE (1), TeAnne L. Brown (1), Joseph D. Wander (2), Steven H. Hinrichs (1), (1) Department of Pathology/Microbiology; University of Nebraska Medical Center, Omaha, Nebraska (2) Air Force Research Laboratory, Tyndall Air Force Base, Florida
| 1E.6
11:00 | Laboratory Study on Sampling and Detection of Airborne Influenza Virus. GANG CAO (1), Francoise M. Blachere (1), William G. Lindsley (1), Bean T Chen (1), Donald H. Beezhold(1), (1) NIOSH, Morgantown, WV
| 1E.7
11:15 | Characterization of UVC Light Sensitivity of Influenza Virus Aerosols. JAMES MCDEVITT (1), Steven Rudnick (1), Lewis Radonovich (2), (1) Harvard School of Public Health, (2) Veterans Health Administration
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Tuesday 11:30 AM - 1:00 PM
Lunch (on your own) Tuesday 1:00 PM - 2:50 PM
Session 2: Poster
2A AEROSOLS, CLOUDS AND CLIMATE II
EXHIBIT HALL
2A.1
| Global and Regional Aerosol Direct Radiative Forcing Sensitivities to U.S. Emissions. FARHAN AKHTAR (1), Rob Pinder (1), Daven Henze (2), Robert Spurr (3), (1) U.S. Environmental Protection Agency, (2) University of Colorado, Boulder, (3) RT SOLUTIONS Inc.
| 2A.2
| Sources of Cloud Condensation Nuclei in Stratocumulus Clouds: Results from the VOCALS Experiment. CYNTHIA TWOHY (1), James Anderson (2), Darin Toohey (3), Miroslaw Andrejczuk (4), (1) Oregon State University, Corvallis, OR (2) Arizona State University, Tempe, AZ (3) University of Colorado Boulder, CO (4) University of Leeds, Leeds, UK
| 2A.3
| Köhler Activation of Organic Aerosols: Simultaneous Effects of Surface Tension and Hygroscopic Growth. ETHAN AUMANN (1), Lynn M. Hildemann (1), Azadeh Tabazadeh (1), Stanford University
| 2A.4
| Combustion Aerosol, Cloud Interactions and Entrainment over the SEP. ANTONY CLARKE(1), Steffen Freitag(1), Vera Brekhovskikh(1), Teresa Campos(2), Jeff Snider(3), Vladimir Kapustin(1), Steven Howell(1), Lindsey Shank(1), Cameron McNaughton(1), (1) University of Hawaii, Honolulu, HI (2) NCAR, Boulder CO (3) University of Wyoming, Laramie, WY
| 2A.5
| Initial Characterization Of Splash Artifacts From Two Airborne Aerosol Inlets During VOCALS Campaign. LUCAS CRAIG (1), Allen Schanot (2), Arash Moharreri (1), Suresh Dhaniyala (1), Dave Rogers (2), Antony Clarke (3), (1) Clarkson University, Potsdam, NY, (2) NCAR/RAF, Broomfield, CO, (3) University of Hawaii, Honolulu, HI
| 2A.6
| Ice and Droplet Formation of Coated Black Carbon Particles. BETH FRIEDMAN (1), Gourihar Kulkarni (2), Daniel Cziczo (2), Alla Zelenyuk (2), Josef Beranek (2), Joel Thornton (1), (1) University of Washington (2) Pacific Northwest National Laboratory
| 2A.7
| Global sensitivity of the cosmic-ray/aerosol connection to uncertainties in nucleation schemes, primary emissions and SOA. Elliot Snow-Kropla (1), JEFFREY PIERCE (1), (1) Dalhousie University, Halifax, Canada
| 2A.8
| Hygroscopic Properties of Chemically Aged, sub-micron Squalane Particles. CHRISTOPHER W. HARMON (1), Jared D. Smith (1), Daphne Che (1,2), Stephen R. Leone (1,2), Kevin R. Wilson (1), (1) Chemical Sciences Division, Lawrence Berkeley National Laboratory, Berkeley, CA 94720, USA (2) Department of Chemistry, University of California, Berkeley, CA 94720, USA
| 2A.9
| Deliquescence and Hygroscopic Growth Measurements of Soluble and Insoluble Mixtures: Implications for the Indirect Effect. Fan Zhang (1), Tiffany Lopez (1), Steven Schill (1) and PAULA HUDSON (1), (1) California State University, Fullerton
| 2A.10
| Importance of rain scavenging in below-cloud altitudinal redistribution of soluble gaseous pollutants in the atmosphere. Boris Krasovitov (1), Tov Elperin (1), Andrew Fominykh (1), Alexander Vikhansky (2), (1) Ben-Gurion University of the Negev, Israel (2) Queen Mary, University of London, UK
| 2A.11
| The Influence of Sulfuric Acid versus Secondary Organic Aerosol Condensation on Ice Nucleation by Mineral Dust Particles at Mixed-Phase Cloud Temperatures. SONIA M. KREIDENWEIS (1), Paul J. DeMott (1), Anthony J. Prenni (1), Ryan C. Sullivan (1), Markus D. Petters (2), Ottmar Möhler (3), Harald Saathoff (3), Dennis Niedermeier (4), Susan Hartmann (4), Heike Wex (4), and Frank Stratmann (4) , (1) Colorado State University, (2) North Carolina State University, (3) Karlsruhe Institute of Technology, (4) Leibniz Institute for Tropospheric Research
| 2A.12
| Probing Temperature and Size Dependence of Hygroscopic Properties of Atmospheric Aerosols using ATR-IR Spectroscopy. YONG LIU, Mark dela Rosa, Dong Fu , University of Colorado Denver
| 2A.13
| Effect of New Particle Formation Events and Diurnal Variation of Aerosol Hygroscopicity on CCN Activity in a Boreal Forest Environment During the 2007 EUCAARI Campaign. KATE M. CERULLY (1), Sara Lance (2), Daniel Tkacik (3), Jack J. Lin (4), Athanasios Nenes (1, 4), Ari Laaksonen (5), Douglas R. Worsnop (6), James N. Smith (7), (1) Chemical and Biomolecular Engineering, Georgia Institute of Technology, Atlanta, GA, (2) National Oceanic and Atmospheric Administration (NOAA), Boulder, CO, (3) Center for Atmospheric Particle Studies, Carnegie Mellon University, Pittsburgh, PA, (4) Environmental and Atmospheric Sciences, Georgia Institute of Technology, Atlanta, GA, (5) Applied Physics, University of Kuopio, Kuopio, Finland, (6) Aerodyne Research Incorporated, Billerica, MA, (7) National Center for Atmospheric Research (NCAR), Boulder, CO
| 2A.14
| Characteristic Velocities for Calculation of PDF-averaged Cloud Droplet Number Concentration, effective radius and Autoconversion Rate. Ricardo Morales (1) Athanasios Nenes (1), (1) Georgia Institute of Technology, Atlanta GA
| 2A.15
| Determination of The Aviational,Meteorological Variations of Cloud in Southern Nigeria. ONIFADE YEMI SIKIRU (1) Bello Rasak (1) Baoku I.G. (1), 1. Crescent University, Abeokuta, Nigeria
| 2A.16
| Estimation of Direct Radiation Forcing of Atmosperic Black Carbon over Korean Peninsula Region. SUNG HOON PARK (1), (1) Sunchon National University
| 2A.17
| Ozone oxidation of oleate films decreases aerosol CCN activity. ALLISON SCHWIER(1), Neha Sareen (1), Terry Lathem (2), Athanasios Nenes (2), V. Faye McNeill (1), (1) Columbia University, New York (2) Georgia Institute of Technology, Georgia
| 2A.18
| Heterogeneous Ice Nucleation on Field-Collected Anthropogenic and Laboratory Generated Organic Particles Impacted by Photochemical Oxidation. BINGBING WANG (1), Alexander Laskin (2), Ryan C. Moffet (3), Mary K. Gilles (3), Daniel A. Knopf (1), (1) Stony Brook University, (2) Pacific Northwest National Laboratory, (3) Lawrence Berkeley National Laboratory
| 2A.19
| Bacterial Aerosol Diversity in Snow and Outdoor Air Samples Collected in Bejing During Jan-March, 2010. Fangxia Shen and MAOSHENG YAO, State Key Joint Laboratory of Environmental Simulation and Pollution Control, College of Environmental Sciences and Engineering Peking University, Beijing 100871, China
| 2A.20
| Molecular Dynamic Simulation of Dicarboxylic Acid Coated Aqueous Aerosol: Structure and Processing of Water Vapor. XIAOFEI MA (1), Purnendu Chakraborty (1), Brian J. Henz (2), Michael R. Zachariah (1), (1) University of Maryland-College Park, (2) US Army Research Laboratory, Aberdeen
| 2A.21
| Aircraft Characterization of Individual Ice Nuclei and Cloud Condensation Nuclei using Single Particle Mass Spectrometer, SPLAT II. ALLA ZELENYUK (1), Dan Imre (2), Peter Liu (3), Anne Marie Macdonald (3), Richard Leaitch (3), (1) Pacific Northwest National Laboratory, (2) Imre Consulting, (3) Environment Canada, Ontario, Canada
| 2A.22
| Surface Aerosols, Radiation Forcing and Vertical Temperature Profiles. D K Singh (1), V K Ponnulakshmi(1), V Mukund (1), G Subramanian(1), K R Sreenivas(1), (1) Jawaharlal Nehru Centre for Advanced Scientific Research, Bangalore, India
| 2A.23
| Smog Chamber Development and Characterization. William L. Madry (1), Laura Cook (1), Kyle Parkinson (1), Carmen Lamancusa (1), Scott Paradise (1), Brian Priolo (1), Mike Ewen (1), Timothy Raymond (1), (1) Bucknell University
| 2A.24
| Climatology of Air Mass Transport to the Arctic from Locations of Controlled Burning in the United States. JENNIFER L. DEWINTER (1), Sean M. Raffuse (1), Steve G. Brown (1), Ken J. Craig (1), Paul T. Roberts (1), Narasimhan K. Larkin (2), Tara T. Strand (2), (1) Sonoma Technology, Inc. (2) U.S. Forest Service AirFire Team
| 2A.25
| Effect of Primary Organic Sea Spray Emissions on Cloud Condensation Nuclei Concentrations. DANIEL WESTERVELT (1), Peter Adams (1), Richard Moore (2), Athanasios Nenes (2), (1) Carnegie Mellon University (2) Georgia Institute of Technology
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2B URBAN AEROSOLS I
EXHIBIT HALL
2B.1
| Simulation of Airflow Particulate Pollutant around a Building. Behtash Tavakoli, GOODARZ AHMADI, Department of Mechanical and Aeronautical Engineering, Clarkson University, Potsdam, NY 13699, USA
| 2B.2
| Spatial Variations in PM10 and Heavy metals concentrations in four Prime activity-driven locations in Ibadan, Nigeria. Godson Ana(1),Tolu Odeshi(1), Mynepalli Sridhar(1) and A. Abimbola(2), University of Ibadan, Nigeria
| 2B.3
| Short term comprehensive atmospheric air quality study in the city of Gelendzhik in the summer of 2009. Mikhail Yu. Arshinov(1), Aleksandr S. Safatov(2), Anatolii M. Baklanov(3), Boris D. Belan(1), Galina A. Buryak(2), Vladimir M. Generalov(2), Boris M. Desyatkov(2), Georgii A. Ivlev (1), Sergei A. Kiselev(2), Aleksandr S. Kozlov(3), Natalia A. Lapteva(2), Sergei B. Malyshkin(3), Mikhail Yu. Marchenko(2), Yurii V. Marchenko(2), Sergei E. Olkin(2), Irina K. Reznikova(2), Aleksandr N. Sergeev(2), Denis V. Simonenkov(1), Vladimir A. Ternovoi(2), Gennadii N. Tolmachev(1), Yurii V. Tumanov(2) and Vladimir P. Shmargunov(1), (1) V.E. Zuev Institute of Atmospheric Optics, SB RAS, Tomsk, Russia, (2) Federal State Research Institution State Research Center of Virology and Biotechnology “Vector”, Koltsovo, Novosibirsk rgn, Russia, (3) Institute of Chemical Kinetics and Combustion, SB RAS, Novosibirsk, Russia
| 2B.4
| Chemical Characterization and Source Apportionment of Coarse Particulate Matter in the Los Angeles Area. Payam Pakbin (1), ZHI NING (1), James J. Schauer (2), Martin M. Shafer (2), Constantinos Sioutas (1), (1) University of Southern California (2) University of Wisconsin-Madison
| 2B.5
| Exploring the Relationship between Aerosol Size Distributions from Paired SMPS Systems, a FMPS and an UFP Monitor in New York City. MIN-SUK BAE(1), James J. Schwab(1), Wei-Nai Chen(2), Olga Hogrefe(1), Brian P. Frank(3), Jacqueline Perry (3), Oliver V. Rattigan(3), Yele Sun (4), Qi Zhang (4), G. Garland Lala(1), Kenneth L. Demerjian(1), (1) Atmospheric Sciences Research Center, University at Albany, State University of New York, Albany, NY 12203, (2) Research Center for Environmental Changes, Academia Sinica, Taipei, Taiwan, (3) New York State Department of Environmental Conservation, Division of Air Resources, 625 Broadway, Albany, NY 12233-3256, (4) Department of Environmental Toxicology, University of California., Davis, CA
| 2B.6
| Ambient Concentrations of Black Carbon and Related Pollutants Measured at the Las Vegas National Near-Road MSAT Study Site. MICHAEL CLAGGETT (1) and Victoria Martinez (1), (1) Federal Highway Administration
| 2B.7
| Spatiotemporal Analysis of Particulate Matter Volatility using Filter Dynamic Measurement System-Equipped TEOMs. NICHOLAS CLEMENTS (1), Teresa Coons (1), Michael Hannigan (1), Shelly Miller (1), Jana Milford (1), (1) University of Colorado, Boulder
| 2B.8
| Influence of U.S. 95 Traffic on Outdoor Black Carbon Concentrations at 3 Near-road Schools in Las Vegas, NV. JENNIFER L. DEWINTER (1), Steven G. Brown (1), Paul T. Roberts (1), Michael C. McCarthy (1), David L. Vaughn (1), (1) Sonoma Technology, Inc.
| 2B.9
| Intercomparison of Long-Term Ambient Ultrafine Particle Size Distribution Measurements at a Near-Roadway and a Representative Urban Site in New York City. BRIAN P. FRANK(1), Jacqueline Perry(1), H. D. Felton(1), Robert A. Anderson(2), Oliver V. Rattigan(1), (1) New York State Department of Environmental Conservation, Albany, NY (2) TSI Incorporated, Shoreview, MN
| 2B.10
| Seasonal Variation and Yearly Trend in PM2.5 Aerosols Concentration, Their Charracterization And Source Apportionment in Karachi (Pakistan). Jawad Nasir (1), Asif Noor (1), BADAR GHAURI (1), Christian Khalil (2), (1) Pakistan Space and Upper Atmosphere Research Commission (SUPARCO), (2) School of Risk and Safety Sciences, University of New South Wales, Australia
| 2B.11
| PM1, PM10 variability within a middle scale of 4 localities. MICHAL GRÉGR (1), Jan Hovorka (1), (1) Charles University in Prague
| 2B.12
| Atmospheric Aerosol in Delhi Region and Source Apportionment Using Positive Matrix Factorization. GAZALA HABIB (1), Amrita Singhai (1), Tarachand Lohia (1), Anil J. Kurian (1), Saood Manzer (1,2), Tarun Gupta (3) , (1) Indian Institute of Technology Delhi, (2) Aligarh Muslim University, (3) Indian Institute of Technology Kanpur
| 2B.13
| Long-term monitoring of ultrafine and accumulation-mode particulate matter during the Las Vegas Near-Road Study. G. HAGLER (1), S. Kimbrough (1), J. Baker (2), R. Shores (1) , (1) U. S. EPA, Office of Research and Development, National Risk Management Research Laboratory, (2) TSI, Inc.
| 2B.14
| The adjoint of the CMAQ aerosol dynamics. SHUNLIU ZHAO (1), Amir Hakami (1), Matthew Turner (2), Daven Henze (2), (1) Carleton University, (2) University of Colorado at Boulder
| 2B.15
| Defining Heterogeneity of Ambient Fine Particles Collected from Eight US Counties using Principal Components Analysis. INKYU HAN (1), Jana N Mihalic (1), Juan P Ramos-Bonilla (1), Ana M Rule (1), Lisa M Polyak (1), Roger D Peng (2), Patrick N Breysse (1), Alison S Geyh (1), (1) Johns Hopkins Bloomberg School of Public Health, Department of Environmental Health Sciences (2) Johns Hopkins Bloomberg School of Public Health, Department of Biostatistics
| 2B.16
| Fog processing of polycyclic aromatic hydrocarbons (PAH). Y. WANG (1), K. Khadapkar (2), F.S. Ehrenhauser (2), J.W. Hutchings (1), M.J. Wornat (2), K.T. Valsaraj (2), and P. Herckes (1, (1) Arizona State University, Dept. of Chemistry and Biochemistry,Tempe AZ 85287-1604, United States , (2) Louisiana State University, Cain Department of Chemical Engineering, Baton Rouge LA 70803, United States
| 2B.17
| Improved Correlations Between Satellite Aerosol Measurements and PM2.5 Air Quality Measurements in the San Joaquin Valley. Anthony W. Strawa (1), Robert B. Chatfield (1), Marion J. Legg (2), Barbara V. Scarnato (3), PATRICK W. HILLYARD (2), (1)NASA Ames Research Center, (2)Bay Area Environmental Research Institute, (3)Oak Ridge Associated Universities
| 2B.18
| Measurement of Real-world Herbicides in Vapor and Particle Phases on a Cotton Field in Las Cruces, NM. JOHN KASUMBA (1), Britt Holmén (1), April Hiscox (2), Junming Wang (3), David Miller (4) , (1) University of Vermont, Burlington, VT 05401 (2) University of South Carolina, Columbia, SC 29208 (3) Tennessee State University, Nashville, TN 37209 (4) University of Connecticut, Storrs, CT 06269
| 2B.19
| The effect of vegetative and structural barriers on ultrafine particle and carbon monoxide dispersion in near-roadway communities. MING-YENG LIN(1), Andrey Khlystov(1), Gayle Hagler(2), Vlad Isakov(3), Richard Snow(4), Richard Baldauf(2,5), (1)Duke University, Durham, NC (2)U.S. EPA, Office of Research and Development, National Risk Management Research Laboratory, Research Triangle Park, NC (3)U.S. EPA, Office of Research and Development, National Exposure Research Laboratory, Research Triangle Park, NC, (4)ARCADIS U.S., Durham, NC (5)U.S. EPA, Office of Air and Radiation, National Vehicle and Fuel Emissions Laboratory, Ann Arbor, MI
| 2B.20
| Source-Oriented WRF/CHEM Model for Regional Air Pollution Studies. STEVEN P. DENERO (1), Shu-Hua Chen (2), Michael J. Kleeman (1), (1) Department of Civil and Environmental Engineering, University of California, Davis (2) Department of Land, Air, and Water Resources, University of California, Davis
| 2B.22
| Source Apportionment of Total Suspended Particulate Matter in Coarse and Fine Size Ranges Over Delhi. SANDEEP GUPTA (1), Arun Srivastava (1), V.K.Jain (1), (1) School of Environmental Sciences, Jawaharlal Nehru University, New Delhi, India
| 2B.23
| Temporal Dynamics and Sources of Particle Types in Milwaukee, WI Studied with Single-Particle Mass Spectrometry. Samantha L. Thompson(1), Alison M. Smyth(1), Deborah S. Gross(1), David C. Snyder(2), James J. Schauer (2), (1) Department of Chemistry, Carleton College, Northfield, MN, (2) Environmental Chemistry and Technology, University of Wisconsin-Madison, Madison, WI
| 2B.24
| Spatial and Seasonal Distribution of Aerosol Chemical Components in New York City: Road Dust and Other Oracers of Traffic-generated Air Pollution. Richard E Peltier (1), Kevin R Cromar (2), Yingjun Ma (3), Zhi Hua (Tina) Fan (3), and Morton Lippmann (2) , 1 University of Massachusetts School of Public Health and Health Sciences, Division of Environmental Health, Amherst, MA 01003 2 New York University School of Medicine, Department of Environmental Medicine, Tuxedo, NY 10987 3 University of Medicine and Dentistry of NJ - Rutgers University, Environmental and Occupational Health Sciences Institute, Piscataway, NJ 08854
| 2B.25
| Passenger Car Cabin Air Particle Size Distributions Measured in Real-time during Rural, Highway and Urban Driving. JONATHAN SYMONDS (1), (1) Cambustion, Cambridge, U.K.
| 2B.26
| Black carbon measurements in Tijuana, Mexico, during the CalMex Campaign. SATOSHI TAKAHAMA (1), Lynn Russell (1), Ruben Duran (2), R Subramanian (3), Greg Kok (3), (1) Scripps Institution of Oceanography, University of California San Diego (2) Universidad Autónoma de Baja California - Tijuana (3) Droplet Measurement Technologies, Inc.
| 2B.27
| Organic aerosol measurements in Tijuana, Mexico, during the CalMex Campaign. SATOSHI TAKAHAMA (1), Anita Johnson (1), Lynn Russell (1), Ruben Duran (2), Aldo Cortez (2), Bianca Puckita (2), Desiree Toom-Sauntry (3), Richard Leaitch (3), John Jayne (4), (1) Scripps Institution of Oceanography, University of California San Diego (2) Universidad Autónoma de Baja California - Tijuana (3) Environment Canada (4) Aerodyne Research, Inc.
| 2B.28
| Particulate Optical Properties of Individual Heavy-Duty Truck Emissions at the Caldecott Tunnel – Preliminary Results. T. ONASCH (1), E. Wood (1), E. Fortner (1), J. Franklin (1), S. Herndon (1), A. Freedman (1), W. Knighton (2), T. Dallmann (3), R. Harley (3), T. Kirchstetter (4), (1) Aerodyne Research, Inc., (2) Montana State University, (3) University of California, Berkeley (4) Lawrence Berkeley Laboratory
| 2B.29
| Airborne Hexavalent Chromium Concentration and Particle Size Distribution in NJ Meadowlands District-A Pilot Study. Zhi-Hua Tina Fan1, Chang-Ho Yu1, Jin Young Shin2, Christine Hobble2, Francisco Artigas2, 1Exposure Science Division, Department of Environmental and Occupational Medicine, UMDNJ-Robert Wood Johnson Medical School and Environmental and Occupational Health Sciences Institute, 170 Frelinghuysen Road, Piscataway, NJ 08854 2Meadowlands Environmental Research Institute,,New Jersey Meadowlands Commission,2 DeKorte Park Plaza, Lyndhurst NJ 07071
| 2B.30
| The Distribution of PM10, PM2.5, and PM1 Concentrations in Primary School in Kaohsiung City. CHIA-YU CHEN (1), Pei-Shih Chen(1), Hong-Yi Lin(1),, (1) Kaohsiung Medical University
| 2B.31
| Investigation about the association of children`s lung function and air pollution in Kaohsiung City. Pei-Shih Chen(1), Chih-Sean Ou(1), YU-TING CHENG (1), (1) Kaohsiung medical university
|
2C CARBONACEOUS AEROSOLS IN THE ATMOSPHERE II
EXHIBIT HALL
2C.1
| 11-years variation of aerosols concentration in Southwestern Siberia. ALEKSANDR S. SAFATOV (1), Galina A. Buryak (1), Boris D. Belan (2), Denis V. Simonenkov (2), Gennadii N. Tolmachev (2), (1) Federal State Research Institution SRC VB “Vector”, Koltsovo, Novosibirsk region, Russia, (2) V.E. Zuev Institute of Atmospheric Optics SB RAS, Tomsk, Russia
| 2C.2
| Particle deposition modeling and measurements for the development of low cost grease sensors in commercial kitchen exhaust ducts. Nikhil Ramesh (1), Thomas. H. Kuehn (1) , (1) Particle Technology Laboratory, University of Minnesota, Minneapolis, Minnesota
| 2C.3
| Study of soot structure and reactivity based on the dispersive character of D mode in Raman spectra. REINHARD NIESSNER (1), Johannes Schmid (1), Markus Knauer (2), Natalia P. Ivleva (1), (1) Institute of Hydrochemistry, Chair for Analytical Chemistry, Technische Universität München, Germany (2) MAN Nutzfahrzeuge AG, Dept. EMPCME, Nürnberg, Germany
| 2C.4
| Modification of the Versatile Aerosol Concentration Enrichment System (VACES) for in-vivo exposure to semi-volatile organic vapors. Zhi Ning (1), PAYAM PAKBIN (1), Arantza Eiguren-Fernandez (2), Aline Lefol Nani Guarieiro (2) Constantinos Sioutas (1), (1) University of Southern California (2) University of California, Los Angeles
| 2C.5
| Aerosol Emission Rates, Speciation and Volatility from In-use Indian Auto-rickshaws. ANDREW GRIESHOP (1), Conor Reynolds (1), Ngoc Nguyen (2), Allen Robinson (2), Milind Kandlikar (1), (1) University of British Columbia, Vancouver, Canada (2) Carnegie Mellon University, Pittsburgh, USA
| 2C.6
| Structure characterization and optical scattering/absorption properties of aerosols generated from combustion sources. ERANDA I. PERERA (1), Charles D. Litton (2), National Institute for Occupational Safety and Health, Pittsburgh, PA
| 2C.7
| Studies of the Optical Scattering and Absorption Properties of Fractal Aggregates Generated from Combustion Sources. CHARLES D. LITTON (1) Eranda I. Perera (1), (1) National Institute for Occupational Safety and Health, Pittsburgh
| 2C.8
| A global simulation of the degree-of-oxygenation, volatility, isotopic composition and abundance of organic aerosol. SHANTANU JATHAR (1), Salvatore Farina, Dr. Allen Robinson(1), Dr. Peter Adams(1), (1) Carnegie Mellon University, Pittsburgh
| 2C.9
| Seasonal characterization of atmospheric organic aerosols at a rural location in New Hampshire. KABINDRA M. SHAKYA (1), Philip F. Place (2), Robert J. Griffin (1), (1) Department of Civil and Environmental Engineering, Rice University (2) Climate Change Research Center, University of New Hampshire
| 2C.10
| Detailed Signal Analysis from Thermal Optical Detection of Controlled Combustion Aerosol with a Sunset Labs Analyzer. MIN-SUK BAE (1), James J. Schwab (1), Wei-Nai Chen (2), Brian P. Frank (3), Aaron Pulaski (3), Kenneth L. Demerjian (1), (1)Atmospheric Sciences Research Center, University at Albany, State University of New York, Albany, NY 12203, (2) Research Center for Environmental Changes, Academia Sinica, Taipei, Taiwan, (3) Air Resources Division, New York State Department of Environmental Conservation, Albany, NY, USA
| 2C.11
| Study of Air Toxics Released from the Pre-Harvest Burning of Sugarcane. Danielle Hall (1), JUN WANG (1), Chang-Yu Wu (1), Krisha Capeto (1), Kuei-Min Yu (1, 2), Yu-Mei Hsu (3), Guenter Engling (4) , (1) University of Florida, Department of Environmental Engineering Sciences (2) National Cheng Kung University, Department of Environmental Engineering and Sustainable Environment Research Center (3) Wood Buffalo Environmental Association (4) Research Center for Environmental Changes, Academia Sinica
| 2C.12
| Characteristic of particle sampling artifact induced by organic carbon and denuder: results of a diesel engine emissions study. Jie Zhang (1), Xinghua Fan (2), Lisa Graham (1), Tak W. Chan (1), Jeffrey R. Brook (2), (1) Environmental Technology Centre, Environment Canada, Ottawa (2) Air Quality Research Division, Environment Canada, Toronto
| 2C.13
| Atmospheric Nitro-PAH and Oxy-PAH concentrations during the 2008 Beijing Olympics. NARUMOL JARIYASOPIT (1), WENTAO WANG (2), STACI SIMONICH (1), (1) Department of Environmental Molecular and Toxicology, Oregon State University, Corvallis (2) College of Urban and Environmental Science, Peking University, Beijing, China
| 2C.14
| Influence of Combustion Sources on Submicron Aerosol Composition and Concentration in Springtime Arctic Haze. AMANDA A. FROSSARD (1), Patrick M. Shaw (1), Lynn M. Russell (1), Jesse H. Kroll (2), Patricia K. Quinn (3), and Tim S. Bates (3), (1) Scripps Institution of Oceanography, UCSD, (2) Department of Civil Engineering, MIT, (3) Pacific Marine Environmental Laboratory, NOAA
| 2C.15
| Simulating Non-Carbon Organic Mass Concentrations with the Community Multiscale Air Quality (CMAQ) Model. HEATHER SIMON (1), Prakash V. Bhave (1), (1) National Exposure Research Laboratory, US EPA, Research Triangle Park
| 2C.17
| Comparison of New and Old CSN Carbon with Collocated Measurements in New York. OLIVER V. RATTIGAN (1), H. Dirk Felton (1), Min-Suk Bae (2), James J. Schwab (2), Kenneth L. Demerjian (2), (1) New York State Department of Environmental Conservation, Albany, NY (2) Atmospheric Sciences Research Center, SUNY Albany, Albany, NY
| 2C.18
| Volatility of Primary Organic Aerosol Emissions from Combustion Sources: A Comparison of Thermodenuder Measurements to an Aerosol Dynamics Model. ANDREW A MAY (1), Christopher J. Hennigan (1), Ilona Riipinen (1,2), Albert A. Presto (1), Allen L. Robinson (1), (1) Carnegie Mellon University, Pittsburgh, PA, (2) University of Helsinki, Helsinki, Finland
| 2C.19
| Sources and Chemical Evolution of Organic Aerosols in New York City Based on High-Resolution Aerosol Mass Spectrometry. YELE SUN (1,2), Qi Zhang (1,2), James J. Schwab (2), Kenneth L. Demerjian (2), Wei-Nai Chen (3), Min-Suk Bae (2), Olga Hogrefe (2), Brian Frank (4), Hui-Ming Hung (5), Yu-Chi Lin (3), (1) Department of Environmental Toxicology, University of California, Davis, CA, USA, (2) Atmospheric Sciences Research Center, State University of New York at Albany, Albany, NY, USA, (3) Research Center for Environmental Changes, Academia Sinica, Taiwan, (4) New York State Department of Environmental Conservation, Albany, NY, USA, (5) Department of Atmospheric Sciences, National Taiwan University, Taiwan
| 2C.20
| Measurement of Halogenated Polycyclic Aromatic Hydrocarbons in Particulate Matter. LEAH GONZALES (1) Shejun Chen (2) Staci Simonich (1), (1) Oregon State University (2) Chinese Academy of Sciences
| 2C.21
| A Prescribed Forest Burning Experiment in Finland in June 2009. AKI VIRKKULA (1,3), Janne Levula (2), Toivo Pohja (2), Gerrit De Leeuw (1,3), David Schultz (1,3), Craig Clements (4), Jaakko Kukkonen (3), Mikhail Sofiev (3), Liisa Pirjola (5), Hanna Manninen (1), Heikki Junninen (1), Tuomo Nieminen (1), Tiia Grönholm (1), Tuukka Petäjä (1), John Backman(1), Markku Kulmala (1) , (1) University of Helsinki, Department of Physics, Finland (2) University of Helsinki, Hyytiälä Forestry Field Station, Finland (3) Finnish Meteorological Institute, Helsinki, Finland (4) Department of Meteorology, San José State University (5) Metropolia University of Applied Sciences, Helsinki, Finland
| 2C.22
| Improving Secondary Organic Aerosol Simulations in the Chemical Transport Model Using Multigenerational Semi-volatile Organic Carbon Reactions. Jaemeen Baek (1)(2), Yongtao Hu (2), M. Talat Odman (2), Armistead G. Russell (2), (1) University of Iowa, Iowa City (2) Georgia Institute of Technology, Atlanta
|
2D SOURCE APPORTIONMENT I
EXHIBIT HALL
2D.1
| Analysis and Interpretation of Air Particulate Matter Data from the Islamabad/ Rawalpindi Region. Naila Siddique1, Shahida Waheed1, Muhammad Arif1, Muhammad Daud1, Andreas Markwitz2, 1Chemistry Division, Directorate of Science, PINSTECH, P. O. Nilore, Islamabad, 45650 Pakistan 2National Isotope Centre, GNS Science, 30 Gracefield Road, P.O. Box 31-312, Lower Hutt, New Zealand
| 2D.2
| Source Apportionment of PM10 Using the PMF Model in Seoul Metropolitan Area. INJO HWANG (1), Seung-Muk Yi (2), (1) Dept. of Environmental Engineering, Daegu University, Korea, (2) Graduate School of Public Health, Seoul National University, Korea
| 2D.3
| A Methodology to Estimate Source-Specific Aerosol Radiative Forcing. RAMYA SUNDER-RAMAN (1), S Ramachandran (2), Sumita Kedia (2),
| 2D.4
| Sources of PM Collected at Varying Distances from an Urban Highway. RACHELLE M DUVALL (1), Gary A Norris (1), Kasey Kovalcik (1), John K McGee (2), David Davies (2), Dock Terrell (2), M Ian Gilmour (2), (1) US EPA NERL, Research Triangle Park, (2) US EPA NHEERL, Research Triangle Park
| 2D.5
| Nanoparticle Fingerprinting to Determine the Source of Airborne Particulate Matter. David Green(1), GARRY CASUCCIO(2), Boris Gorbunov(1), Robert muir(1), (1) Naneum, Canterbury,UK (2) RJ Lee Group, Monroeville,PA
| 2D.6
| Residential exposure to highway traffic exhaust in an Alpine valley in Switzerland. Regina Ducret-Stich (1,2), HARISH C. PHULERIA (1,2), Alex Ineichen (1,2), Christian Schindler (1,2), L.-J. Sally Liu (1,2,3), (1) Swiss Tropical and Public Health Institute, Basel, Switzerland (2) University of Basel, Basel, Switzerland (3) University of Washington, Seattle, Washington, USA
| 2D.7
| Identification of PM2.5 Sources in Regions along the Windsor to Montreal Corridor. Cheol-Heon Jeong (1), Maygan L. McGuire (1), Greg J. Evans (1), Dennis Herod (2), Tom Dann (3), Ewa Dabek-Zlotorzynska (3), Daniel Wang (3), Luyi Ding (3), Valbona Celo (3), David Mathieu (3), (1) Southern Ontario Centre for Atmospheric Aerosol Research, University of Toronto, Toronto, Ontario, Canada (2) Air Emissions Priorities Division, Environment Canada, Gatineau, Quebec, Canada (3) Environmental Science and Technology Branch, Environment Canada, Ottawa, Ontario, Canada
| 2D.8
| Long Range Transport of Anthropogenic Pollution in the Asian Region. Bilkis A. Begum (1), Swapan K. Biswas (1), Gauri G. Pandit (2), Shahida Waheed (3), Manikkuwadura C. S. Seneviratne (4), David D. Cohen( 5), Andreas Markwitz(6), Philip K. Hopke (6), Clarkson University, Potsdam, NY
|
2E AEROSOL CHEMISTRY I
EXHIBIT HALL
2E.1
| Photochemical Model Assessment of PM2.5 Ammonium Nitrate in California. KIRK BAKER (1), Heather Simon (1), (1) U.S. Environmental Protection Agency, Research Triangle Park
| 2E.2
| Photochemical Modeling Using MEGAN and BEIS: Comparison of Predicted SOA and Precursors to Surface and Aloft Measurements. KIRK BAKER (1) Annmarie G. Carlton (1), (1) U.S. Environmental Protection Agency
| 2E.3
| Heterogeneous and Homogeneous Atmospheric Chemistry of N2O5: A Review. WAYNE L. CHANG (1), Prakash V. Bhave (2), Steven S. Brown (3), Nicole Riemer (4), Jochen Stutz (5), Donald Dabdub (1), (1) University of California, Irvine, (2) U.S. EPA, (3) NOAA, Boulder, (4) University of Illinois at Urbana-Campaign, (5) University of California, Los Angeles
| 2E.4
| Observations of the Spatial and Temporal Variability of Ammonia at Several different sites in Colorado. Derek Day (1) William Malm (1) Bret Schichtel (3) Xi Chen (2), Florian Schwandner (4), Jeffrey Collett, Jr. (2) , (1) CIRA, Colorado State University (2) Atmospheric Science Department, Colorado State University (3) National Park Service, Colorado State University (4) Nanyang Technological University, Singapore
| 2E.5
| Real-time Single Particle Measurements of N2O5 Uptake on Ambient Marine Aerosol. ELIZABETH M. M. FITZGERALD (1), Olivia S. Ryder (1), Timothy H. Bertram (1), Joel A. Thornton (2), Kimberly A. Prather (1,3), (1) University of California San Diego (2) University of Washington (3) Scripps Institution of Oceanography
| 2E.6
| Size Distribution of Particulate Mercury (Hg(p)) using Multi-stage Impactors. Pyung-Rae Kim(1), Seung-Muk Yi(2), Young-Ji Han(1), (1)Department of Environmental Science, Kangwon National University, Korea (2)Department of Environmental Health, Seoul National University, Korea
| 2E.7
| Insights into Secondary Organic Aerosol Species in an Urban Environment by Single Particle Mass Spectrometry. LINDSAY E. HATCH (1), Jessie M. Creamean (1), Andrew P. Ault (1), Kimberly A. Prather (1), (1) University of California, San Diego
| 2E.8
| Overview of the LADCO Winter Nitrate Study and New Insights on Wintertime PM Episodes in the Upper Midwest. Charles Stanier (1) Jaemeen Baek (1) Mike Caughey (6) Adam Beranek-Collins (1) Gregory Carmichael (1) Eric Edgerton (2) Donna Kenski (3) Michael Koerber (3) Sang Rin Lee (1) Nicole Riemer (4) Stephanie Shaw (5) Sinan Sousan (1) Scott Spak (1), (1) University of Iowa (2) ARA, Inc. (3) LADCO (4) University of Illinois (5) EPRI (6) Illinois State Water Survey
| 2E.9
| Development of High-Order DDM Sensitivity Analysis for Particulate Matter in Multidimensinal Air Quality Models. WENXIAN ZHANG (1), Shannon Capps (2), Athanasios Nenes (3), Armistead Russell (4), (1) (2) (3) (4) Georgia Institute of Technology
| 2E.10
| Diurnal Variation of Organic Carbon Sources in Georgia. Yuan Cheng (1), MEI ZHENG (1), Xiuying Zhao (1), Wenyan Shi (1), Xiaolu Zhang (1), Rodney J. Weber (1), Eric S. Edgerton (2), and James J. Schauer (3), (1) School of Earth and Atmospheric Sciences, Georgia Institute of Technology, Atlanta, GA (2) Atmospheric Research & Analysis, Inc., Cary, NC (3) University of Wisconsin-Madison, Madison, WI
| 2E.11
| Connecting Experimental Data and Model Parameters through Partitioning Theory (and the Volatility Basis Set). KELLEY BARSANTI (1), Annmarie Carlton (2), Serena Chung (3), (1) Portland State University, Portland, (2) EPA, Research Triangle Park, (3) Washington State University, Pullman
| 2E.12
| On Transport Phenomena and Equilibration Time Scales in Thermodenuders. RAWAD SALEH (1), Andrey Khlystov (1), Alan Shihadeh (2), (1) Duke University, (2) American University of Beirut
| 2E.13
| Continued Development of the Adjoint of ISORROPIA II. SHANNON CAPPS (1), Armistead Russell (1), Athanasios Nenes (1), (1) Georgia Institute of Technology
| 2E.14
| Predicting Pure Compound Vapor Pressure with the Carbon Number-Polarity Grid. JOHN SCHNEIDER (1), Kelley Barsanti (1), William Asher (1,2), James Pankow (1), (1) Portland State University, (2) University of Washington
| 2E.15
| Modeling Chemical Aging of Soot Particles by O3, NO2, NO3, and OH in the Presence of Water Vapor With a Particle-Resolved Aerosol Model. NICOLE RIEMER (1), Christopher Kaiser (2), Daniel A. Knopf (2), (1) University of Illinois at Urbana-Champaign, Illinois, (2) Stony Brook University, New York
| 2E.16
| Modeling Growth of Newly Formed Particles and Cloud Condensation Nuclei Production in an Urban Environment. RAHUL ZAVERI (1), Richard Easter (1), Nicole Riemer (2), Matthew West (2), Kelley Barsanti (3), Chongai Kuang (4), James Smith (5), Peter McMurry (6) , (1) Pacific Northwest National Laboratory, Richland, (2) University of Illinois, Urbana-Champaign, (3) Portland State University, Portland, (4) Brookhaven National Laboratory, Upton, (5) NCAR, Boulder, (6) University of Minnesota, Minneapolis
| 2E.17
| Signature Marine Aerosol Chemistry Observed in an Inland Urban Location during Tropical Cyclones. JESSIE M. CREAMEAN (1), Andrew P. Ault (1), Kimberly A. Prather (1,2), (1) University of California, San Diego, (2) Scripps Institution of Oceanography
| 2E.18
| Characteristics of Water-Soluble Organic Nitrogen in Ambient Aerosols over Southeast USA during AMIGAS Study. Neeraj Rastogi (1,2), RODNEY J. WEBER (2), Xiaolu Zhang (2), Eric S. Edgerton (3), Ellery Ingall (2), (1) Southern Ontario Centre for Atmospheric Aerosol Research, University of Toronto, Canada (2) School of Earth and Atmospheric Sciences, Georgia Institute of Technology, USA (3) Atmospheric Research and Analysis, Inc, Durham, USA
| 2E.19
| The AMIGAS and NCCN Campaigns: Investigating Primary and Secondary Particle Formation, Growth, and Transformation in the Southeastern US. STEPHANIE L. SHAW (1), Peter H. McMurry (2), Eladio M. Knipping (1), Eric S. Edgerton (3), John J. Jansen (4) , (1) Electric Power Research Institute (2) University of Minnesota, Minneapolis (3) Atmospheric Research & Analysis, Inc. (4) Southern Company Services
| 2E.20
| Mass Accommodation Coefficient Temperature Dependence in Aqueous Sulfuric Acid. JOSHUA J. MCCLELLAN (1), (1) NIST, Gaithersburg
| 2E.21
| Exploring the Complexity of Sesquiterpene Oxidation: 2D-TAG Analysis of Longifolene Ozonolysis Products. GABRIEL ISAACMAN (1), Dave Worton (1), Nathan Kreisberg (2), Chris Hennigan (3), Alex Teng (2), Susanne Hering (2), Allen Robinson (3,4), Neil Donahue (3,4), and Allen Goldstein (1), (1) University of California, Berkeley, (2) Aerosol Dynamics, Inc., Berkeley, (3) Carnegie Mellon University, Pittsburgh, (4) Center for Atmospheric Particle Studies, Pittsburgh
| 2E.22
| Aerosol Uptake and Condensed Phase Reactions of Glyoxal in Salt Solutions. MELISSA M. GALLOWAY (1), Christine L. Loza (2), Lindsay D. Yee (2), Puneet S. Chhabra (2), Man Nin Chan (2), Katherine Schilling (2), Arthur W. H. Chan (2,3), Ge Yu (1), Amanda R. Bayer (1), Kyle J. Korshavn (1,4), John H. Seinfeld (2), Frank N. Keutsch (1), (1) University of Wisconsin - Madison (2) California Institute of Technology (3) Currently at University of California, Berkeley (4) Currently at Valparaiso University
| 2E.23
| Molecular structure of sub-3 nm ammonium bisulfate clusters. JOSEPH W. DEPALMA (1), Murray V. Johnston, (1) University of Delaware
|
2F INSTRUMENTATION AND METHODS II
EXHIBIT HALL
2F.1
| Using Two-wavelength Aethalometer Measurements to Evaluate Ambient Wood Burning Particles in New York. YUNGANG WANG (1), Philip K. Hopke (1), David C. Chalupa (2), Mark J. Utell (2), Oliver Rattigan (3), Dirk Felton (3), (1) Center for Air Resource Engineering and Science, Clarkson University, Potsdam, NY, USA, (2) Department of Environmental Medicine, University of Rochester Medical Center, Rochester, NY, USA, (3) Division of Air Resources, NYS Department of Environmental Conservation, Albany, NY, USA
| 2F.2
| Holographic imaging of particles. MATTHEW J BERG (1,2), Gordon Videen (2), (1) Mississippi State University, Mississippi State (2) US Army Research Laboratory, Adelphi
| 2F.3
| Design and Evaluation of a Photochemical Chamber to Investigate the Health Effects of Fresh and Aged Vehicular Emissions. VASILEIOS PAPAPOSTOLOU (1), Joy E. Lawrence (1), Stephen T. Ferguson (1), Jack M. Wolfson (1), Petros Koutrakis (1), (1) Harvard School of Public Health, Boston
| 2F.4
| Theoretical and Practical Aspects of a Comparison between Cascade Impactors (MOUDI, ELPI) and Electron Microscopy Results for Nanoparticles Analysis. Yves Cloutier (1), Alexandra Noël (2), Philippe Plamondon (2), Gilles L'Espérance (2), Chantal Dion (1), Ginette Truchon (1) , Joseph Zayed (1), (1) Institut de Recherche Robert-Sauvé en santé et en sécurité du travail (IRSST) 505, boul. De Maisonneuve Ouest, Montréal (Québec) Canada, H3A 3C2 (2) Département de chimie, Université de Montreal, CP 6128 Succursale Centre-Ville, Montréal (Québec) Canada, H3C 3J7
| 2F.5
| Identifying Sources of Uncertainty Using Covariance Analysis. NICOLE PAULY HYSLOP, Warren H. White , University of California, Davis
| 2F.6
| Laboratory Evaluation of a Condensation Particle Counter Under Airborne Measurement Conditions. NOBUYUKI TAKEGAWA (1), Hiromu Sakurai (2), (1) RCAST, University of Tokyo, Japan, (2) NMIJ, AIST, Japan
| 2F.8
| Mass Measurements with a High-Resolution Particle Mass Classifier. JASON OLFERT (1), Tyler Johnson (1), Rouzbeh Ghazi (1), Barnabas Wu (1), Nicolas Olmedo (1), Curt Stout (1), Jonathan Symonds (2), (1) University of Alberta, Edmonton (2) Cambustion Ltd, Cambridge, UK
| 2F.9
| Determining Ultrafine Particle Collection Efficiency in a Nanometer Aerosol Sampler. Chengjue Li, Shusen Liu, YIFANG ZHU, Texas A&M University-Kingsville
| 2F.10
| Condensation particle counter for nanoparticles in diesel exhaust gases. YUSUKE KUROMIYA (1), Erika Ito (1), Yoshio Otani (1), Takafumi Seto (1), (1) Kanazawa University
| 2F.11
| Comparison of different PM2.5 monitors in Ontario’s research network. NICHOLAS KARELLAS (1), Andy Ng (1), Jerzy Desbosz (1), (1) Ontario Ministry of the Environment
| 2F.12
| Development of A High-flow Virtual Impactor System. Guan Zhao (1), Paul A. Solomon (2), Philip K. Hopke (3), Suresh Dhaniyala (1), (1) Dept. of Mechanical and Aeronautical Engineering, Clarkson University, Potsdam, NY, (2) National Exposure Research Laboratory, US EPA, Las Vegas, NV (3) Dept. of Chemical and Biomolecular Engineering, Clarkson University, Potsdam, NY
| 2F.13
| Characterization of Dimensions of Carbon Nanotubes using Online Techniques. Burkhard Stahlmecke (1), Lavanya Ravi (1), Nkwenti Azong-Wara (1), CHRISTOF ASBACH (1), Heinz Fissan (1,2), Thomas A. J. Kuhlbusch (1,2) , (1) Institute of Energy and Environmental Technology (IUTA), Division Air Quality & Sustainable Nanotechnology, Duisburg, Germany (2) Center for Nanointegration Duisburg Essen, CeNIDE, Duisburg, Germany
| 2F.14
| Comparison of Different Approaches for Measurement of Surface Area of Nanoaerosols. BON KI KU, Pramod Kulkarni, Centers for Desease Control and Prevention, National Institute for Occupational Safety and Health
| 2F.15
| Design, Operation, and Optimization of the Nano Aerosol Mass Spectrometer (NAMS). M. ROSS PENNINGTON (1), Murray V. Johnston (1), (1) University of Delaware
| 2F.16
| Evaluation of Dihydrorhodamine 123 as Fluorescent Probe for Reactive Oxygen Species. JIAYUAN ZHAO (1), Philip K. Hopke (1), (1) Center for Air Resources Engineering and Science, Clarkson University, Potsdam, NY 13676, USA
| 2F.17
| Direct Derivatization and Analysis of Polars in Particulate Matter by TD-GC/MS. Gianni Caravaggio (1), Vivien Ko (1), Ajae Hall (1), PENNY MACDONALD (1), (1) CanmetENERGY, Natural Resources Canada
| 2F.18
| Development of an Instrument for Classification of Organic Aerosol Particles Using Laser-induced Fluorescence Technique. Fumikazu Taketani (1), Yugo Kanaya (1), Takayuki Nakamura (2), Nobuhiro Moteki (3), Nobuyuki Takegawa (3), (1) Japan Agency for Marine-Earth Science and Technology, (2) Fuji Electric Systems Co. Ltd., (3) University of Tokyo
| 2F.19
| A Portable Ultrafine Particle Sizer (PUPS) for in-situ Engine Exhaust Monitoring. MATTHEW CASARI, Andrew Vize, Britt Holmen, Jeff Frolik , University of Vermont
| 2F.20
| A Method for Traceable Calibration of Condensation Particle Counters at Low Concentrations. HIROMU SAKURAI (1), Kensei Ehara (1), (1) National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Japan
| 2F.21
| Impact of High Sulfur Concentration on Measurement of Light Elements by XRF. ANN M. DILLNER (1), Xiaoya Cheng (1,2), Hege Indresand (1), Warren H. White (1), (1) University of California, Davis (2) Zhejiang University, China
| 2F.22
| A new Nanoparticle Counter. JUERGEN SPIELVOGEL (1), Maximilian Weiss (1), Martin Schmidt (1), Leander Moelter (1), Gerfried Lindenthal (2), (1) Palas GmbH, Karlsruhe, Germany, (2) Ingenieurbuero fuer Partikeltechnologie, Espenau-Hohenkirchen, Germany
| 2F.23
| An Aerosol Chemical Speciation Monitor (ACSM) for Routine Monitoring of Atmospheric Aerosol Composition. Nga L. Ng, Timothy B. Onasch, Achim Trimborn, Scott C. Herndon, Manjula R. Canagaratna, Donna Sueper, Douglas R. Worsnop, John T. Jayne , Aerodyne Research, Inc.
| 2F.24
| Experimental and Numerical Study of a Filter System for Particle Magnetic Moment. LIN LI (1), Da-Ren Chen (1), Paul S. Greenberg (2) , (1) Washington University in St. Louis, St. Louis, (2) NASA-Glenn Research Center, Cleveland
| 2F.25
| Evaluation of the European method and the catalytic stripper for particle number measurements. BAROUCH GIECHASKIEL (1), Alexander Bergmann (1), Heejung Jung (2), (1) AVL List GmbH, (2) University of California Riverside
| 2F.26
| Verification of a Custom Liquid Aerosol Chamber for the Evaluation of Five Aerosol Detection Systems to Measure Chemical Warfare Agent Simulants. Gerald Ducatte (1), Jason Gordon (1), Joseph Bindel (1), Brian Heckman (1), (1) Midwest Research Institute
| 2F.27
| Condensation Particle Counter Proportionality Calibration from 1 to 10$^4 particles/cm$^3. MILES OWEN (1), George Mulholland (2), William Guthrie (3), (1) US Army Primary Standards Laboratory (2) University of Maryland at College Park, (3) NIST, Gaithersburg
| 2F.28
| Light Absorption Measurement from Thermal/Optical Carbon Analysis: Implications for the OC/EC Split. L.-W. ANTONY CHEN (1), Xiaoliang Wang (1), Judith C. Chow (1), and John G. Watson (1), (1) Division of Atmospheric Sciences, Desert Research Institute, Reno, NV 89512, USA
| 2F.29
| Deriving Empirical Relationships between Aerodynamic and Optical Aerosol Measurements. KORI MOORE (1), William Bradford (1), Randal Martin (2), Christian Marchant (1), Michael Wojcik (1), (1) Energy Dynamics Laboratory, (2) Utah State University
|
2G COMBUSTION I
EXHIBIT HALL
2G.1
| Liquid Fuel Ignition Catalyzed by in situ Generated Free Metal (Fe, Ni) Nanoparticles. XIAOFEI MA (1), Natan Aronhime (1), Michael R. Zachariah (1), (1) University of Maryland, College Park
| 2G.2
| On-line Nanoparticle Size Distribution Measurements in the Stack Gas of a Wood Pellet Burner. GIL COSSETTE (1), Juergen Spielvogel (1), Friedhelm Schneider (1), Thomas Hock (2), Markus Pesch (1), (1) GRIMM Aerosol Technik GmbH & Co. KG, (2) Hagenlocher GmbH & Co KG
| 2G.3
| Comparison of two Condensation Particle Counters for Automotive Applications using a Combustion Soot Generator. GIL COSSETTE (2), Juergen Speilvogel (2), Stefan Carli (1), Sebastian Usarek (1), Lena Brandt (1), Lothar Keck (2), Markus Pesch (2), Hans Grimm (2), Rene Albrecht (2), Matthias Richter (2) , (1) Volkswagen AG, Wolfsburg, Germany (2) GRIMM Aerosol Technik GmbH & Co. KG
| 2G.4
| Performance Evaluation of High Efficiency Wood Boilers. SRIRAAM RAMANATHAN CHANDRASEKARAN (1) James Laing (2 Suresh Raja (3) Thomas M Holsen (4) Philip K Hopke (5), (1) Center for Air Resources Engineering and Science, Clarkson University (2) Center for Air Resources Engineering and Science, Clarkson University (3) Center for Air Resources Engineering and Science, Clarkson University (4) Center for Air Resources Engineering and Science, Clarkson University (5) Center for Air Resources Engineering and Science, Clarkson University
| 2G.5
| Emission Rates and Optical Properties of Pollutants Emitted from a Traditional and an Improved Wood-Burning Cookstove. THOMAS W. KIRCHSTETTER, Odelle Hadley, Chelsea Preble, Ashok Gadgil, Lawrence Berkeley National Laboratory, Berkeley
| 2G.6
| Evolution of Particulate Matter in Biomass Combustion. ERKKI LAMMINEN, Elina Nieminen, Ville Niemelä, Dekati Ltd, Tampere, Finland
| 2G.7
| Size distributions and composition of soot in biodiesel versus petroleum diesel diffusion flames. Matti Maricq, Ford Motor Company, Dearborn, MI
| 2G.8
| Synthesis of Metal Particles from Heavy Fuel Oil Using Spray Flame Pyrolysis for Health Effects Studies. Zhongqing Zheng, HEEJUNG JUNG, Xiaocheng Tang, Akua Asa-Awuku , University of California Riverside
| 2G.9
| Measurement of Diesel Solid Nanoparticle Emissions. HEEJUNG JUNG (1), Kent Johnson (1), Tom Durbin (1), Shaohua Hu (2), David Cocker (1), Zhihua Liu (1)(4), Zhongqing Zheng (1), Ajay Chaudhary (2), Tao Huai (2), Jorn Herner (2), William Robertson (2), Alberto Ayala (2) and David Kittelson (3), (1) CE-CERT, University of California, Riverside, (2) California Air Resources Board, (3) University of Minnesota, (4) Beijing Institute of Technology, China
| 2G.10
| On-board Emission Measurement from the World’s Largest Mining Trucks. XIAOLIANG WANG (1), Steven D. Kohl (1), Judith C. Chow (1), John G. Watson (1), Steven Gronstal (1) , (1) Division of Atmospheric Sciences, Desert Research Institute, Reno
| 2G.11
| Recent Development and Evaluation of In-Use PM PEMS Compared Against UCR's Mobile Reference Laboratory. M. YUSUF KHAN (1), Kent C. Johnson (2), Thomas D. Durbin (2), David R. Cocker III (1), Heejung Jung (3), (1) Department of Chemical and Environmental Engineering, Bourns College of Engineering, Center for Environmental Research and Technology (CE-CERT), University of California, Riverside (2)College of Engineering-Center for Environmental Research and Technology(CE-CERT), University of California, Riverside (3) Department of Mechanical Engineering, Bourns College of Engineering, Center for Environmental Research and Technology (CE-CERT), University of California, Riverside
| 2G.12
| Morphology of Particulate Matter from In-Use Spark-Ignited Natural Gas and Gasoline Engines. CHRISTIE LAGALLY (1), Conor Reynolds (2), Andrew Grieshop (2) and Steven Rogak (1), (1) Department of Mechanical Engineering, University of British Columbia (2) Institute for Resources, Environment and Sustainability, University of British Columbia
| 2G.13
| The Physical and Chemical Properties of Exhaust Particulates Generated by New-Generation Engines. ALLA ZELENYUK (1), Josef Beranek (1), Dan Imre (2), Carrie Farron (3), Nick Matthias (3), Mike Andrie (3), Dave Foster (3), (1) Pacific Northwest National Laboratory, (2) Imre Consulting, (3) University of Wisconsin, Madison
| 2G.14
| Exhaust Fine Particle and Nitrogen Oxide Emissions from Individual Heavy-Duty Trucks at the Port of Oakland. TIMOTHY R. DALLMANN (1), Robert A. Harley (1), (1) Department of Civil and Environmental Engineering, University of California, Berkeley
| 2G.15
| Chemical and Physical Characterization of Particulate Matter from a Heavy-Duty Diesel Engine Fueled with Animal Fat and Soy Based Biodiesel Blends. CURTIS WAN (1), Justin Ketterer (2), Jim Wallace (2), Greg Evans (1) , (1) Southern Ontario Centre for Atmospheric Aerosol Research, University of Toronto, Toronto (2) Engine Design and Research Laboratory, University of Toronto, Toronto
| 2G.16
| Biodiesel as an alternative fuel: Its effect on exhaust gas emission. Maryam Hajbabaei (1), Thomas D. Durbin (1), Kent Johnson (1) , David R. Cocker III (1), J.Wayne Miller (1), (1) Center for Environmental Research and Technology (CE-CERT), Univeristy of California, Riverside
| 2G.17
| Evaluation of Filtration Efficiency and Pressure Drop of Mini-Diesel Particulate Filters. JACOB SWANSON (1), Matthew Schumacher (1), Winthrop Watts (1), David Kittelson (1), (1) University of Minnesota, Minnesota
| 2G.19
| Effect of Water in Fuel Injection on Emissions from a Large Marine Engine. Varalakshmi Jayaram (1), M. YUSUF KHAN (1), Ole Peter Fredrickson (2), William W. Welch (3), J. Wayne Miller (1), David R. Cocker III (1), (1) Department of Chemical and Environmental Engineering, Bourns College of Engineering, Center for Environmental Research and Technology (CE-CERT), University of California, Riverside (2) MAN Diesel, Research & Development Division, Copenhagen, Denmark (3) College of Engineering-Center for Environmental Research and Technology (CE-CERT), University of California, Riverside
| 2G.20
| Evaluation of On-Road Vehicle Emission Trends in the United States. TIMOTHY R. DALLMANN (1), Robert A. Harley (1), Thomas W. Kirchstetter (2), (1) Department of Civil and Environmental Engineering, University of California, Berkeley, (2) Lawrence Berkeley National Laboratory, Berkeley
| 2G.21
| Characteristics of Generator Emissions within selected Business Premises in Ibadan, Nigeria. OLOWOLADE A.T. (1), Ana,G.R.E.E. (1) and Abimbola, A.F. (1), (1) University of Ibadan
|
2H INDOOR AEROSOLS/EXPOSURE I
EXHIBIT HALL
2H.1
| Numerical and Experimental Investigation of Dust Particle Resuspension from Common Flooring in Laminar Flow. Iman Goldasteh (1), Goodarz Ahmadi (1), Andrea Ferro (2), (1) Department of Mechanical and Aeronautical Engineering, Clarkson University, Potsdam, NY, 13699, U.S.A. (2) Department of Civil and Environmental Engineering, Clarkson University, Potsdam, NY, 13699, U.S.A.
| 2H.2
| Development of Artificial Neural Network based Metamodels for the Inactivation of anthrax spores in ventilated spaces using Computational Fluid Dynamics. SHAMIA HOQUE (1) Bakhtier Farouk (2) Charles N. Haas (1), (1) Department of Civil, Architectural and Environmental Engineering, Drexel University (2) Department of Mechanical Engineering and Mechanics, Drexel University
| 2H.3
| Flooring and Particle Composition Factors Affecting Resuspension Rate via Human Activity. KYUNG SUL (1), Yilin Tian (1), Iman Goldasteh (1), Goodarz Ahmadi (1), and Andrea R. Ferro (1), (1) Clarkson University
| 2H.4
| Characterizing Resuspension of Particulate Matter Using a Consistent Test Mechanism. YILIN TIAN(1), Kyung Sul(1), Andrea Ferro(1), (1) Clarkson University
| 2H.5
| Converting Human Activity Patterns into Resuspension Schedules in CONTAM. Bramwell Lisa (1), Ferro Andrea (1), (1) Clarkson University
| 2H.6
| Computational modeling of Thermal Plume and Aerosol Transport around a Manikin in a Room. Mazyar Salmanzadeh (1,2), Ghazanfar Zahedi (1), GOODARZ AHMADI (2), (1) Shahid Bahonar University of Kerman, Kerman, Iran. (2) Clarkson University, Potsdam
| 2H.7
| A Parameter Study on Anthrax Spore-laden Particle Resuspension Due to Human Walking. Xinyu Zhang(1), GOODARZ AHMADI(1), Andrea Ferro(2), (1)Department of Mechanical and Aeronautical Engineering, Clarkson University (2)Department of Civil and Environmental Engineering, Clarkson University
| 2H.8
| The effect of occupant movement on the contaminants distribution: Numerical modeling. M.H. Saidi (1), G. Ahmadi (2), M. Soleimani, B. SAJADI (1), (1) Sharif University of Technology, Iran (2) Clarkson University, NY, USA
| 2H.9
| Flash Disinfection of Air Filter Media Contaminated with Bioaerosols. BRIAN DAMIT (1), Christiana N. Lee (2), Chang-Yu Wu (1), (1) University of Florida, Department of Environmental Engineering Sciences, (2) University of Florida, Department of Chemical Engineering
| 2H.10
| Field Study and CFD Simulation of Fine Particulate Matters in Classrooms with Different HVAC Settings in Tianjin China. SU WEN (1), Xinyu Li (1), (1) Tianjin Polytechnic University
| 2H.11
| Comparison Of Efficiency Of Some Indoor Air Decontaminators Produced In Russia. SERGEI A. KISELEV (1), Yurii V. Marchenko (1), Aleksandr S. Safatov (1), Artem A. Sergeev (1), Aleksandr A. Sergeev (1), Elena K. Emelyanova (1), Vasilij Yu. Marchenko (1), Galina A. Buryak (1), and Dmitrii A. Trubitsyn (2) , (1) Federal State Research Institution SRC VB “Vector”, Koltsovo, Novosibirsk region, 630559, Russian Federation, (2) «AeroServis», Ltd., Koltsovo, Novosibirsk region, 630559, Russia Federation
| 2H.12
| Investigating heterogeneous oxidative interaction between ozone and houseplant insecticides and its health impact. YONG LIU, Mark dela Rosa, Dong Fu, University of Colorado Denver
| 2H.13
| Temporal Variations in Fine Particle Concentration at an Urban Commercial Building near Freeway Traffic. COLLIN M. WORK (1) and Andrea R. Ferro (1), (1) Department of Civil and Environmental Engineering, Clarkson University
| 2H.14
| Impact of Air Distribution on Efficiency of Aerosol Capture from Cast Iron Grinding - Bench Test Method. TOMASZ JANKOWSKI (1), (1) Department of Chemical and Aerosol Hazards, Central Institute for Labour Protection – National Research Institute
|
2I AEROSOL PHYSICS II
EXHIBIT HALL
2I.1
| Flame Aerosol Deposition of Nanoparticle Films. Antonio Tricoli (1), Tobias D. Elmoe (2), SOTIRIS E. PRATSINIS (1), (1) Particle Technology Laboratory, Department of Mechanical and Process Engineering, ETH Zurich, CH-8092 Zurich, Switzerland, (2) Department of Chemical and Biochemical Engineering, Technical University of Denmark, DK-2800 Lyngby, Denmark
| 2I.2
| Coagulation Study of Particles Generated by a Twin-Head Electrospray. Huijing Fu (1), Da-Ren Chen (1), (1) Washington University in St. Louis
| 2I.3
| Lunar Dust Control by an Electrostatic Precipitator (ESP). NIMA AFSHAR-MOHAJER (1), Brian Damit (1), Chang-Yu Wu (1), (1) University of Florida, Environmental Engineering Sciences
| 2I.4
| Does Shape Anisotropy Control the Fractal Dimension in Diffusion-Limited Cluster-Cluster Aggregation?. William Heinson (1), Amit Chakrabarti (1), CHRISTOPHER SORENSEN (1), (1) Kansas State University
| 2I.5
| Aggregate Neck Growth & Coalescence by Multiparticle Sintering. MAX L. EGGERSDORFER (1), Sotiris E. Pratsinis (1), (1) ETH Zurich, Switzerland
| 2I.6
| Two-dimensional fractal dimension analysis of agglomerates: Determining the most reliable technique. RAJAN K. CHAKRABARTY (1), Mark A. Garro (1), Bruce A. Garro (1), Shammah Chancellor (1), Hans Moosmüller (1), and Christopher Herald (2) , (1)Desert Research Institute, Nevada System of Higher Education, Reno, NV-89512 (2)Department of Mathematics and Statistics, University of Nevada Reno, Reno, NV-89557
| 2I.7
| Experimental study on charged aerosol penetration through metallic tubes. KUANG-NAN CHANG, Sheng-Hsiu Huang, Chih-Chieh Chen, College of Public Health, Naional taiwan University, Taipei, Taiwan
| 2I.8
| Binary Nucleation of Deuterium Oxide with n-Butanol. Kelley Mullick (1), Barbara Wyslouzil (2), (1) Ohio State University, Columbus
| 2I.9
| Effect of Wound Thermal Plume on the Infection Prevention. Behrang Sajadi, Mohammad. H. Saidi, Goodarz Ahmadi, (1) Sharif University, (2) Sharif University, (3) Clarkson University
| 2I.10
| Mathematical Modeling of Particle Shrinkage in a Pneumatic Conveying Dryer. KYOUNGSOO LIM(1) , Sangdo Kim(1), Sihyun Lee(1), Soonkwon Jeong(1), Youngjoon Rhim(1), (1) Korea Institute of Energy Research
| 2I.12
| The Influence of Relative Humidity on Nanoparticle Concentration and Particle Mass Distribution Measurements by the MOUDI. SHENG-CHIEH CHEN (1), CHUEN-JINN TSAI (1), (1) National Chiao Tung University
|
2J HEALTH RELATED AEROSOLS II
EXHIBIT HALL
2J.1
| Nanoparticle-Containing, Spray Can Aerosol: Characterization, Exposure Assessment, and Inhalation Chamber Design. BEAN T. CHEN (1), Aliakbar Afshari (1), Samuel Stone (1), Mark Jackson (1), Walt McKinney (1), Diane Schwegler-Berry (1), David G. Frazer (1), Vincent Castranova (1), and Treye A. Thomas (2), (1) NIOSH, Morgantown, WV, (2) CPSC, Bethesda, MD
| 2J.2
| Influence of Suspended Particulate Matter, NO2 and SO2 on Human Health: A Case Study of Tiruchirappalli City, India. SIRAJUDDIN.M.HORAGINAMANI (1), M. Ravichandran (1), P. Shahul Hameed (2), (1)Bharathidasan University,Tiruchirappalli-620024,Tamil Nadu,India. (2)Environmental Research Center, J.J. College of Engineering & Technology,Tiruchirappalli-620009,Tamil Nadu
| 2J.3
| Monitoring mice health responses caused by intra-tracheal instillation of vehicle exhaust particles by means of BronchoAlveolar Lavage. Ntziachristos, L.(1), Stoeger, T.(2), Tzamkiozis, Th.(1), NING, Z. (3) Sioutas, C.(3), Samaras, Z.(1), (1) Laboratory of Applied Thermodynamics, Aristotle University Thessaloniki, Greece (2) Institute of Lung Biology and Disease (iLBD), Helmholtz Zentrum München, Ingolstädter Landstraße 1, Neuherberg/München, Germany (3) University of Southern California
| 2J.4
| Hygroscopic Growth of fine Aerosols in Pediatric Nasal Airways. JONGWON KIM (1) Jinxiang Xi (1), (1) University of Arkansas, Little Rock, AR
| 2J.5
| Development of an Instrument to Simulate Puffing, Inhaling and Exhaling Cigarette Smoke. CONOR MCGRATH (1), Paul Warrington (1), Colin Dickens (1), Jessica Perkins (1), Kingsley Reavell (2), (1) British American Tobacco, Group R&D Centre, Southampton, UK (2) Cambustion Ltd., Cambridge, UK
| 2J.6
| Semi-volatile PM Fraction Plays a Significant Role in the Oxidative Potential of Ambient Quasi-ultrafine Particles in an Urban Environment. VISHAL VERMA (1), Payam Pakbin (1), Ka Lam Cheung (1), Arthur K. Cho (2), James J. Schauer (3), Martin M. Shafer (3), Michael T. Kleinman (4) and Constantinos Sioutas (1), (1) University of Southern California, Los Angeles, (2) University of California, Los Angeles, (3) University of Wisconsin, Madison, (4) University of California, Irvine
| 2J.7
| Responses of PM2.5 and ozone-induced premature mortality to precursor emissions under the impact of climate change. Efthimios Tagaris (1,2), Kuo-Jen Liao (1), Anthony J. DeLucia (3), Leland Deck (4), Praveen Amar (5), Armistead G. Russell (1), (1) School of Civil and Environmental Engineering, Georgia Institute of Technology (2) Environmental Research Laboratory, NCSR Demokritos, Greece (3) Department of Surgery, James H. Quillen College of Medicine, East Tennessee State University (4) Stratus Consulting Inc., 1920 L Street, NW; Suite 420, Washington, DC (5) Northeast States for Coordinated Air Use Management (NESCAUM), Boston, MA
| 2J.8
| Nanoparticle Fate from a Simulated Leak During Nanoparticle Manufacturing. NICHOLAS J. STANLEY (1), David Y.H. Pui (1), Thomas H. Kuehn (1), Christof Asbach (2), Thomas Kuhlbusch (2), and Heinz Fissan (2), (1) University of Minnesota, Minneapolis, (2) IUTA, Duisburg, Germany
| 2J.9
| Airborne Infection Risk Modeling in Healthcare Facilities. AMIR A. ALIABADI (1), Chu Lin (1), Steven N. Rogak, (1), Sheldon I. Green (1), Karen H. Bartlett (2), (1) Department of Mechanical Engineering - University of British Columbia (2) School of Environmental Health - University of British Columbia
| 2J.10
| The location of particle deposition in rat extra-thoracic airways. PRAVEEN SRIRAMA (1), Chris Wallis (1), Anthony Wexler (1), (1) University of California, Davis
| 2J.11
| The Effects of Lung Mechanics on the Deposition of Inhaled Particles in the Human Lung Upper Airways – A Computational Fluid Dynamics (CFD) Approach. (1) KAMBIZ NAZRIDOUST, (2) Bahman Asgharian, (3) Owen Moss, (4) Jeffry Schroeter, (5) Goodarz Ahmadi, (1) SimuTech Group, (2) Applied Research Associates, (3) POK Research, (4) The Hamner Institutes for Health Sciences, (5) Clarkson University
| 2J.12
| Dual Use of a CPC and OPC to Determine Nanoparticle Concentrations. PATRICK T. O'SHAUGHNESSY (1), Linda H. Schmoll (1), Thomas M. Peters (1), (1) University of Iowa
| 2J.13
| Challenge of Filtering Facepiece Respirators with Viable Aerosols of H1N1 Influenza. DELBERT HARNISH (1), Kimberly Kinney (1), April Lumley (1), Brian Heimbuch (1), Joe Wander (2), (1) Applied Research Associates, (2) Air Force Research Laboratories
| 2J.14
| Analytical Model of Particle Deposition in the Pulmonary Acinus. Pierre-Antoine Muller (1-2), MARINE PICHELIN (1), Redouane Fodil (2), Gabriela Apiou-Sbirlea (2), Bruno Louis (2), Georges Caillibotte (1), Daniel Isabey (2) , (1) Medical Gases Group, CRCD, Air Liquide, France (2) Department of Cell and Respiratory Biomechanics, Mondor Biomedical Research Institute, Inserm UMR955, University Paris Est, France
| 2J.15
| Detection of Influenza Virus in Human Exhaled Air. Yu-Ting Cheng (1), Pei-Shih Chen (1), Wan Chi Kuo (1), (1) Kaohsiung medical university
| 2J.16
| Wind erosion from tailings and mass transport of deposited aerosol particles from sleag heap in Mitrovica air. AFRIM SYLA(1), Petrit Januzi(2), (1) University of Prishtina, (2) University of Prishtina- Republic of Kosova
| 2J.17
| Novel Paradigm for Bioaerosol Testing of Antimicrobial Textiles and Filter Material Based Disinfection. JANE TURNER (1), Kevin M. McCabe (1), Mark Hernandez (1), (1) University of Colorado, Boulder
| 2J.18
| Coagulation and Deposition of Cigarette Smoke Particles in the Human Lung. BAHMAN ASGHARIAN (1), OwenT. Price (1), Colin Dickens (2), John McAughey (2), (1) Applied Research Associates, Raleigh, NC. (2) British American Tobacco, Southampton, United Kingdom.
| 2J.19
| The Electrostatic Particulate Dosage and Exposure System (EPDExS): A Method for Quantifiable and Controlled Dosage of Respirable Size Particles for In Vitro Studies. Jake Brutman (1), Giuseppe A. Petrucci (2), (1) University of Vermont
| 2J.20
| Emission Characterization from Seven Common Commercial Cooking Appliances. Bernard A. Olson, Thomas H. Kuehn, James W. Ramsey, Joshua M. Rocklage, University of Minnesota
| 2J.21
| Evaluation of microwave irradiation assisted filtration for capture and inactivation of viral aerosols for collective protection. MYUNG-HEUI WOO (1), Adam Grippin (1), Chang-Yu Wu (1) , (1) University of Florida
| 2J.22
| Evaluation of the performance of dialdehyde starch filter as novel biocidal filters for protection against airborne viruses. MYUNG-HEUI WOO (1), Adam Grippin (1), Chang-Yu Wu (1), Ronald H. Baney (1), (1) University of Florida
| 2J.23
| Three Dimensional Modeling of the Human Respiratory System. JACKY ROSATI (1), Ray Burton (2), Rob McCauley (2), George McGregor (2), (1) US EPA National Homeland Security Research Center, RTP, NC (2) Lockheed Martin, RTP, NC
| 2J.24
| Regional Inertial Particle Deposition in the Sprague-Dawley Rat Nasal Passages using a Computational Fluid Dynamics Model. KIMBELL, J.S. (1), Asgharian, B. (2), Jones, L. (3), Singal, M.(3), and Schroeter, J.D.(4), (1) University of North Carolina, (2) Applied Research Associates, (3) Research Institute for Fragrance Materials, Inc., (4) The Hamner Institutes for Health Sciences.
| 2J.25
| New Method to Produce Liposome-Incorporated Interferon to Deliver as Aerosol. TATYANA KOTOVA (1), Anastasiya Pevneva (2), Research Institute of Highly Pure Biopreparations, Saint-Petersburg, Russia
| 2J.26
| Methods and Systems for in-vivo Toxicological Characterization of Engineered Nanomaterials. PHILIP DEMOKRITOU (1), George Sotiriou(2), Edgar Diaz(1), John Godleski(1), Sotiris Pratsinis(2) , (1) Harvard School of Public Health, (2) Particle Technology Laboratory, Department of Mechanical and Process Engineering, ETH Zurich.
| 2J.27
| Fiber inhalability and head deposition in rats and humans. Bahman Asgharian (1), Owen T. Price (1), Steve M. Gavett (2), Annie M. Jarabek (2), (1) Applied Research Associates, Raleigh (2) Environmental Protection Agency, Durham
| 2J.28
| Simulations of the Motion of Arbitrarily Shaped Fibers in a Linear Shear Flow. ANDRIY ROSHCHENKO (1), Warren Finlay (1), Peter Minev (1), (1) University of Alberta, Edmonton
|
2K SPECIAL SYMPOSIUM: AEROSOLS IN GEOENGINEERING I
EXHIBIT HALL
2K.1
| The Cloud Brightening Geoengineering Technique. JOHN LATHAM (1) Philip Rasch (2) Alan Gadian (3) Jack Chen (1) Laura Stevens (3) Ben Parkes (3), (1) NCAR, Boulder (2) PNNL, Richland (3) Leeds University, UK
| 2K.2
| Adverse Impacts of Geoengineering by Stratospheric Aerosol Injection Methods. D.Weisenstein (1), P. Heckendorn (2), J. Pierce (3), T. Peter (2), D. Keith (4), (1) Atmospheric and Environmental Research, Inc., Lexington, MA, USA (2) Institute for Atmospheric and Climate Science, ETH Zurich, Zurich, Switzerland, (3) Department of Physics and Atmospheric Science, Dalhousie University, Halifax, NS, Canada, (4) Energy and Environmental Systems Group, University of Calgary, Calgary, AB, Canada
| 2K.3
| Testing sea salt injections into marine stratocumulus as a geoengineering option. Andreas Muhlbauer, Thomas P. Ackerman and Robert Wood, University of Washington, Seattle
| 2K.4
| Effect of in-plume aerosol processing on the efficacy of marine cloud albedo enhancement from controlled sea-spray injections. ROBIN STEVENS (1), Dominik Spracklen (2) , Hannele Korhonen (3), Jeffrey Pierce (1), (1) Dalhousie University, Canada, (2) University of Leeds, UK, (3) Finnish Meteorological Institute, Kuopio Unit, Finland
| 2K.5
| Geoengineering as an Optimization Problem. GEORGE BAN-WEISS (1), Ken Caldeira (1), (1) Carnegie Institution, Dept of Global Ecology, Stanford
| 2K.7
| On the Role of Sulphate in Aerosol Indirect Radiative Forcing. W. RICHARD LEAITCH (1), Nicole Shantz (1), Lynn Russell (2), Jeffrey Pierce (3), Ulrike Lohmann (4), , (1) Science and Technology Branch, Environment Canada, (2) Scripps Institution of Oceanography, University of California San Diego, (3) Dalhousie University, (4) ETH, Zurich
|
2L SPECIAL SYMPOSIUM: BIOLOGICAL AEROSOL DETECTION AND SAMPLING I
EXHIBIT HALL
2L.1
| Use of a Novel Conductance Based Technology for Realtime Environmental Bacterial Aerosol Sensing. Miaomiao Tan, Fangxia Shen and MAOSHENG YAO, State Key Joint Laboratory for Environmental Simulation and Pollution Control College of Environmental Sciences and Engineering Peking University, Beijing 100871, China
| 2L.3
| Hi-Fidelity RNA Recovery for the Expression Profiling of Airborne Bordatella pertussis Response to Atmospheric Environmental Stress. KEVIN M. MCCABE (1), Jane Turner (1), Tracy L Nicholson (3), Tod Merkel (2), Mark Hernandez (1) , (1) Civil, Environmental and Architectural Engineering Department, University of Colorado, Boulder, Colorado (2) Laboratory of Respiratory Pathogens, United States Food and Drug Administration, Bethesda, Maryland (3) National Animal Disease Center, United States Department of Agriculture, Ames, Iowa
| 2L.4
| Characterizing phylogenetic diversity in airborne bacterial populations in China. ZAHRA CHAUDHRY (1), Joshua Santarpia (1), J. Vanderlei Martins (2), (1) JHU Applied Physics Lab, Laurel, MD (2) University of Maryland, Baltimore County, MD
| 2L.5
| Development of High Volume Portable Aerosol-to-Hydrosol Sampling Technique. Qishuang He and Maosheng Yao*, State Key Joint Laboratory of Environmental Simulation and Pollution Control, College of Environmental Sciences and Engineering Peking University, Beijing 100871, China
| 2L.6
| Viable Approach for the Detection of Bacteriological Contamination in Particulate Food Commodities by Aerosol Sampling. PAMELA MUROWCHICK (1), David Alburty (1), Ann Packingham (1), Anthony Bashall (2), Kevin Humphrey (2), (1) AlburtyLab, Inc., (2) Hollison Technologies, Inc.
| 2L.7
| Fluorescent biological aerosol particle size distributions and concentrations measured in different environments. J. ALEX HUFFMAN (1), Uli Pöschl (1), (1) Max Planck Institute for Chemistry, Biogeochemistry Department
| 2L.8
| Fluorescence of Bioparticles: Microscopy, Spectroscopy, and On-line Detection. Christopher Pöhlker (1), J. ALEX HUFFMAN (1), Uli Pöschl (1), (1) Max Planck Institute for Chemistry, Biogeochemistry Department
| 2L.9
| Biological Aerosol Particle Measurements at a Rural Background Site: Ambient Comparison of UV-APS and WIBS-4 On-Line Techniques. David A. Healy (1), ALEX J. HUFFMAN (2), David O’Connor (1), Ulrich Pöschl (2), John R. Sodeau (1), (1) University College Cork, Department of Chemistry, Cork, Ireland, (2) Max Planck Institute for Chemistry, Biogeochemistry Department, Mainz, Germany
|
Tuesday 3:00 PM - 5:00 PM
Session 3: Platform
3A SPECIAL SYMPOSIUM: AEROSOLS IN GEOENGINEERING II
B 113/114
Lynn Russell and Jeff Pierce, chairs
3A.1
3:00 | Risks of Using Stratospheric Aerosols for Geoengineering. ALAN ROBOCK, Rutgers University
| 3A.2
3:15 | Explorations of Geoengineering of Boundary Layer Clouds with an LES. PHILIP RASCH (1), Hailong Wang (1), Graham Feingold (2), (1) Pacific Northwest National Laboratory, Richland (2), NOAA, Boulder
| 3A.3
3:30 | Trade-offs between Geoengineering, Mitigation and Adaptation. NAOMI VAUGHAN (1,2), Tim Lenton (2), (1) Tyndall Centre for Climate Change Research, UK (2) School of Environmental Sciences, University of East Anglia, UK
| 3A.4
3:45 | Efficacy of Sea Spray Geoengineering: Influence of Emission Rate, Microphysics and Transport. HANNELE KORHONEN (1,2), Antti-Ilari Partanen (2), Kenneth S. Carslaw (3), Sami Romakkaniemi (2), (1) Finnish Meteorological Institute, Kuopio Unit (2) University of Eastern Finland, Kuopio (3) University of Leeds, United Kingdom
| 3A.5
4:00 | Climate Response to a Geo-Engineered Brightening of Subtropical Boundary Clouds. SPENCER HILL (1), Yi Ming (2), (1) University of California, Los Angeles, (2) Geophysical Fluid Dynamics Laboratory/NOAA, Princeton, NJ
| 3A.6
4:15 | Efficient formation of stratospheric aerosol for geoengineering by emission of condensable vapour from aircraft. JEFFREY PIERCE (1), Debra Weisenstein (2), Patricia Heckendorn (3), Thomas Peter (3), David Keith (4), (1) Dalhousie University, Halifax, Canada, (2) Atmospheric and Environmental Research, Inc., Lexington, MA, (3) ETH Zurich, Switzerland, (4) Energy and Environmental Systems Group, Calgary, Canada
| 3A.7
4:30 | Impacts of Stratospheric Sulfur Injection Schemes on Aerosol Size Distribution using a Microphysical Sectional Aerosol Model coupled with a Whole Atmosphere General Circulation and Chemistry Model. JASON ENGLISH (1,2), Brian Toon (1,2), Michael Mills (3), (1) University of Colorado, Boulder, (2) LASP, Boulder, (3) NCAR, Boulder
| 3A.8
4:45 | Iron Fertilization and Aerosols: The potential of the SERIES experiment to inform aerosol geoengineering practices. Lisa Langley (1), W. Richard Leaitch (2), Maurice Levasseur (3), Ulrike Lohmann (4), Ann-Lise Norman (5), Nicole C. Shantz (2), (1) Environment Canada - Atlantic (2) Environment Canada - Downsview (3) University of Laval (4) ETH, Zurich (5) University of Calgary
|
3B AEROSOL CHEMISTRY II
B 115/116
Spyros Pandis and Rob Griffin, chairs
3B.1
3:00 | Partitioning Phase Preference for Secondary Organic Aerosol in an Urban Atmosphere. WAYNE L. CHANG (1), Robert J. Griffin (2), Donald Dabdub (1), (1) University of California, Irvine, (2) Rice University
| 3B.2
3:15 | An Improved Mechanism to Predict Secondary Organic Aerosols from Toluene for Air Quality Models. HARSHAL M. PARIKH (1), Annmarie G. Carlton (2), William Vizuete (1), Eric H. Chen (1), Richard M. Kamens (1), (1) University of North Carolina - Chapel Hill, (2) U.S. Environmental Protection Agency
| 3B.3
3:30 | Simplifying a Secondary Organic Aerosol Formation Mechanism for Global Models using the WRF-Chem Regional Model. MANISH SHRIVASTAVA (1), Jerome Fast (1), Rahul Zaveri (1), Richard Easter (1), William Gustafson Jr. (1), Alma Hodzic (2) , Jose-Luis Jimenez (3), (1) Pacific Northwest National Laboratory, Richland, WA, USA, (2) National Center for Atmospheric Research, Boulder, CO, USA, (3) Dept. of Chemistry and Biochemistry and CIRES, Univ. of Colorado, Boulder, CO, USA
| 3B.4
3:45 | Simulating the Oxidative Aging of Ambient Organic Compounds. BENJAMIN N. MURPHY (1), Neil M. Donahue (1), Spyros N. Pandis (1,2), (1) Carnegie Mellon University, Center for Atmospheric Particle Studies, Pittsburgh, USA, (2) University of Patras, Institute of Chemical Engineering and High Temperature Chemical Processes (ICE-HT), Foundation of Research and Technology (FORTH), Patra, Greece
| 3B.5
4:00 | Thermodynamic Modeling of Liquid-liquid Equilibria and RH Effects on the Gas/Particle Partitioning of Organic-inorganic Aerosols. ANDREAS ZUEND (1), Claudia Marcolli (2), Thomas Peter (2), John H. Seinfeld (1), (1) California Institute of Technology, Pasadena (2) ETH Zurich, Switzerland
| 3B.6
4:15 | Thermodynamic Properties and Gas/particle Partitioning of Atmospheric Amines. Xinlei Ge (1), Anthony S. Wexler (1), Simon L. Clegg (1,2), (1) University of California, Davis, (2) University of East Anglia, UK
| 3B.7
4:30 | Making Activity Corrections Feasible: Adding Complexity to Modeling Organic Particulate Matter with Minimal Computational Expense. JOHN SCHNEIDER (1), William Asher (1,2), James Pankow (1), (1) Portland State University, (2) University of Washington
| 3B.8
4:45 | Modeling secondary organic aerosol formation from isoprene oxidation under dry and humid conditions. FLORIAN COUVIDAT (1), Christian Seigneur (1), (1) CEREA, Joint Laboratory Ecole des Ponts ParisTech/EDF R&D, Université Paris-Est
|
3C SOURCE APPORTIONMENT II
A 106
Philip K. Hopke and Michael Hannigan, chairs
3C.1
3:00 | Analysis and Interpretation of Air Particulate Matter Data from a Suburban Site in Islamabad. Naila Siddique1, Shahida Waheed1, Muhammad Daud1, Andreas Markwitz2, 1Chemistry Division, Directorate of Science, PINSTECH, P. O. Nilore, Islamabad, 45650 Pakistan 2National Isotope Centre, GNS Science, 30 Gracefield Road, P.O. Box 31-312, Lower Hutt, New Zealand
| 3C.2
3:15 | Combined Organic and Elemental Source Markers in Positive Matrix Factorization for Source Apportionment of Ambient PM2.5. STEPHEN MCDOW (1), Gary Norris (1), Ram Vedantham (1), Rachelle Duvall (1), John Turlington (1), Leonard Stockburger (1), David Olson (1), Robert Willis (1), Robert Kellogg (2), Ronald Williams (1), (1) National Exposure Research Laboratory, US EPA, Research Triangle Park (2) Alion Science and Technology, Research Triangle Park
| 3C.3
3:30 | Source Apportionment of Secondary Organic Aerosol in Southeastern Texas Using a Source Oriented CMAQ Model. HONGLIANG ZHANG (1), Qi Ying (1), (1) Texas A&M University
| 3C.4
3:45 | Size-Resolved Source Apportionment of Carbonaceous Particulate Matter in Urban and Rural Sites in the San Joaquin Valley. WALTER HAM (1), Chris Ruehl (1), Michael Kleeman (1), (1) University of California, Davis
| 3C.5
4:00 | Ensemble-Trained PM2.5 Source Apportionment. SIVARAMAN BALACHANDRAN (1) Jorge Pachon (1) Yontao Hu (1) James A. Mulholland (1) Armistead G. Russell (1), (1) Georgia Institute of Technology
| 3C.6
4:15 | The Denver Aerosol Sources and Health Study (DASH): Synthesis of Results. MICHAEL P. HANNIGAN (1), Jennifer L. Peel (2), Sun-Young Kim (3), Lianne Sheppard (3), Jana Milford (1), Shelly Miller (1), Ricardo Piedrahita (1), Steven J. Dutton (4), Maggie L. Clark (2), Sverre Vedal (3), (1) University of Colorado at Boulder, Boulder, CO (2) Colorado State University, Fort Collins, CO (3) University of Washington, Seattle, WA (4) US Environmental Protection Agency, RTP, NC
| 3C.7
4:30 | Particulate Matter Source Apportionment and Estimate Evaluation Using A Combined Chemical Transport and Receptor Model Approach. Yongtao Hu (1), Sivaraman Balachandran (1), Jorge Pachon (1), M. Talat Odman (1), James A. Mulholland (1) and ARMISTEAD G. RUSSELL (1) , (1) School of Civil and Environmental Engineering, Georgia Institute of Technology, Atlanta, Georgia, USA
| 3C.8
4:45 | Temporal Trends, Spatial Trends, and Source Attribution of Fine and Coarse Particulate Matter in Pinal County, Arizona. Andrea L. Clements (1), Matthew P. Fraser (1,2), Nabin Upadhyay (2), Pierre Herckes (2), Michael Sundblom (3), Jeff Lantz (4), Paul A. Solomon (5) , (1) Rice University, Houston, (2) Arizona State University, Tempe, (3) Pinal County Air Quality Control District, Florence, (4) US EPA Office of Air and Radiation, Las Vegas, (5) US EPA Office of Research and Development, Las Vegas
|
3D CONTROL TECHNOLOGY I
B 110/111/112
James Noll and Cristina Gutierrez-Canas, chairs
3D.1
3:00 | Carbon Nanotube Filtration. SEONG CHAN KIM (1), Jing Wang (1), David Y.H. Pui (1), (1) University of Minnesota
| 3D.2
3:15 | The Influence of Particle Charging on Filtration by Electret and Fiberglass Media. PETER C. RAYNOR (1), Jo Anne Brock (1), Monika Vadali (1), (1) University of Minnesota, Minneapolis
| 3D.3
3:30 | Modeling and Testing the Effectiveness of a Heating, Ventilation and Air Conditioning System on Indoor Air Quality. Suresh Raja (1), Andrea R. Ferro (1), Philip K. Hopke (1), Larry E. Wetzel (2) and Cheryl Gressani (2), (1) Clarkson University, 8 Clarkson Avenue, Center for Air Resources Engineering and Science, Potsdam, NY 13699, USA (2) Air Innovations, Inc, 7000 Performance Drive, North Syracuse, NY 13212, USA
| 3D.4
3:45 | Investigation of Continuous Primary Particulate Emissions Monitoring. KEVIN GOOHS (1), Dieter Kita (1), (1) Thermo Fisher Scientific, Inc., Franklin
| 3D.5
4:00 | Numerical Study of Pleated Filter Panels Under Particle Loading Condition. Qisheng Ou (1), Da-Ren Chen (1), (1) Washington University in St. Louis
| 3D.6
4:15 | Application of Silica Precursor to Reduce Toxic Metal Emissions from stainless teel Welding Process. JUN WANG (1), NATHAN TOPHAM (1), MARK KALIVODA (1), CHANG-YU WU (1), KATHLEEN PAULSON (2), KUK CHO (3), YU-MEI HSU (4), (1) Univerisity of Florida, Gainesville, (2) NAVFAC, Port Hueneme, (3) KIGAM, Korea, (4) WBEA, McMurray
| 3D.7
4:30 | Measurement of Retention Efficiency of Filters against Nanoparticles in Liquids using an Aerosolization Technique and a Liquid Particle Counter. TSZ YAN LING (1), Jing Wang (1), David Y.H. Pui (1), (1) Particle Technology Laboratory, Department of Mechanical Engineering, University of Minnesota
| 3D.8
4:45 | Establishment of Emission Factor Database for Primary Aerosols of Chinese Coal-fired Power Plants. YU ZHAO (1,2), Shuxiao Wang (2), Chris. P. Nielsen (1), Xinghua Li (2), Jiming Hao (2), (1) School of Engineering and Applied Sciences, Harvard University (2) Department of Environmental Science and Engieering, Tsinghua University
|
3E SPECIAL SYMPOSIUM: BIOLOGICAL AEROSOL DETECTION AND SAMPLING II
B 117/118/119
Jacky Rosati and Jana Kesavan/Jayne Morrow, chairs
3E.1
3:00 | Development of an Electrostatic Precipitation Based Automated Bioaerosol Sensing System. Miaomiao Tan, Maosheng Yao* and Tong Zhu*, State Key Joint Laboratory of Environmental Simulation and Pollution Control, College of Environmental Sciences and Engineering, Peking University, Beijing 100871, China
| 3E.2
3:15 | Performance Evaluation of three Personal Bioaerosol Samplers. Wei-Chung Su (1), Yung Sung Cheng (1), (1) Lovelace Respiratory Research Institute
| 3E.3
3:30 | CFD Simulation of a Low Flow Rate Omni-Directional Aerosol Inlet with Fractionator. BING GUO (1), Andrew R. McFarland (1), Daniel Wise (2), (1) Texas A&M University, College Station, (2) Edgewood Chemical Biological Center, Aberdeen
| 3E.4
3:45 | Biological Aerosol Sampling Using a DRUM Sampler. CATHERINE CAHILL (1), Linda Powers (2), Walther Ellis (2), (1) University of Alaska Fairbanks (2) University of Arizona
| 3E.5
4:00 | Size Distributions of Influenza Virus Bioaerosols. Wan Yang (1), LINSEY C. MARR (1), (1) Virginia Tech
| 3E.6
4:15 | Measurements of influenza virus RNA in cough-generated aerosols. WILLIAM G. LINDSLEY (1), Francoise M. Blachere (1), Robert E. Thewlis (1), Abhishek Vishnu (2), Kristina A. Davis (3), Gang Cao (1), Jan E. Palmer (4), Karen E. Clark (4), Melanie A. Fisher (3), Rashida Khakoo (3), Stephen M. Davis (5), Bean T. Chen (1) and Donald H. Beezhold (1), (1) NIOSH, (2) Department of Community Medicine, West Virginia University, (3) Department of Medicine, West Virginia University, (4) Well WVU Student Health, West Virginia University, (5) Department of Emergency Medicine, West Virginia University
| 3E.7
4:30 | Accuracy, Precision, and Method Detection Limits of Quantitative PCR for Airborne Bacteria and Fungi. DENINA HOSPODSKY (1), Naomichi Yamamoto (1,2), Jordan Peccia (1), (1) Yale University (2) Japan Society for the Promotion of Science
| 3E.8
4:45 | Analysis of Culturable Bacterial Aerosol Diversity Obtained Using Different Sampling and Cultivation Methods. Zhenqiang Xu and Maosheng Yao*, State Key Joint Laboratory for Environmental Simulation and Pollution Control College of Environmental Sciences and Engineering Peking University, Beijing 100871, China
|
Tuesday 5:00 PM - 6:00 PM
WG Meetings I (Aerosol Chemistry, Instrumentation, Indoor Aerosol & Aerosol Exposure, History of Aerosol Science, Combustion & Materials) Tuesday 6:00 PM - 8:00 PM
Exhibits Open
Tuesday 6:00 PM - 8:00 PM
Exhibitors' Reception
Wednesday 8:00 AM - 9:15 AM
Plenary II: AEESP Lecture
8:00
| AEESP Lecture: Secondary Organic Aerosol Formation through Aqueous Photochemistry Barbara Turpin. Rutgers University.
|
| Moderator: Cliff Davidson. Carnegie Mellon University.
| 9:00
| Whitby Award Presentation, Sinclair Award Presentation Da Ren Chen, Awards Committee Chair. Washington University.
|
Wednesday 9:15 AM - 3:15 PM
Exhibits Open
Wednesday 9:15 AM - 9:45 AM
Coffee Break
Wednesday 9:45 AM - 11:30 AM
Session 4: Platform
4A AEROSOLS, CLOUDS AND CLIMATE III
B 113/114
Daniel Cziczo and Terry Lathem, chairs
4A.1
9:45 | The Effect of Coatings on Ice Nucleation. Daniel Cziczo (1), Karl Froyd (2), Stephane Gallavardin (3), Ottmar Moehler (4), (1) Pacific Northwest National Lab, (2) National Ocean and Atmospheric Administration, (3) Max Planck Institute, (4) Karlsruhe Institute of Technology
| 4A.2
10:00 | The Role of Organics in Heterogeneous Ice Nucleation – Anthropogenic, HULIS, and Marine Biological Particles. DANIEL A. KNOPF (1), BingBing Wang (1), Peter A. Alpert (1), Josephine Y. Aller (1), Alexander Laskin (2), Ryan C. Moffet (3), Mary K. Gilles (3), (1) Stony Brook University, Stony Brook, NY, (2) W.R. Wiley Environmental Molecular Sciences Laboratory, Pacific Northwest National Laboratory, Richland, WA, (3) Chemical Sciences Division, Lawrence Berkeley National Laboratory, Berkeley, CA
| 4A.3
10:15 | The Effect of Giant CCN on Cloud Droplet Activation. Donifan Barahona (1), Rosaind E. L. West (3), Philip Stier (3), Sami Romakkaniemi (4), Harri Kokkola(5), Vlassis Karydis(2), and ATHANASIOS NENES (1, 2), (1) School of Chemical and Biomolecular Engineering, Georgia Institute of Technology, United States (2) School of Earth and Atmospheric Sciences, Georgia Institute of Technology, United States (3) Atmospheric, Oceanic and Planetary Physics, Department of Physics, University of Oxford, England (4) Department of Physics and Mathematics, University of Eastern Finland, Finland (5) Finnish Meteorological Institute, Kuopio Unit, Finland
| 4A.4
10:30 | Ice Nuclei measurements: Field and Laboratory studies. GOURIHAR KULKARNI (1), Mikhail Pekour(1), Kerri Pratt(2), Beth Friedman(3), Gannet Haller(4), Ian McCubbin(4), Daniel Cziczo(1), (1) Pacific Northwest National Laboratory, Richland (2) Purdue University, West Lafayette (3) University of Washington, Seattle (4) Storm Peak Lab, Steamboat Springs
| 4A.5
10:45 | Dynamic Changes in Cloud Droplet Growth due to Organic Particle Mixing. AKUA ASA-AWUKU (1), (1) University of California, Riverside
| 4A.6
11:00 | Stratus Cloud Supersaturations. JAMES G. HUDSON (1), Stephen Noble (1), Vandana Jha (1), (1) Desert Research Institute, Reno, NV
| 4A.7
11:15 | Changes in Cloud Condensation Nuclei Activity Associated with Chemical Composition and Precipitation Events. CRAIG CORRIGAN (1), Greg Roberts (1), Melanie Zauscher (2), (1) Scripps Institution of Oceanography, (2) University of California San Diego
|
4B AEROSOL CHEMISTRY III
B 115/116
Murray Johnston and Paul Ziemann, chairs
4B.1
9:45 | Molecular Composition of Monoterpene Secondary Organic Aerosol at Low Mass Loading. Yuqian Gao (1) and MURRAY JOHNSTON (1), (1) University of Delaware
| 4B.2
10:00 | A “Virtual Injector” Approach to Studying the Reactive Uptake Kinetics of Organic Aerosols. GEOFFREY D. SMITH (1), Lindsay H. Renbaum (1), (1) University of Georgia
| 4B.3
10:15 | Laboratory Observations of H2SO4-H2O-NH3 Ternary Homogenous Nucleation under the Atmospherically Relevant Conditions. DAVID BENSON (1), Mark Erupe (1), Andrey Markovich (1), Shan Hu Lee (1), (1) Kent State University, Kent, Ohio
| 4B.4
10:30 | Lowering of Recrystallization Humidity of Inorganic Salts in the Presence of Water Insoluble Particles. Harry Hunter, Asit K. Ray, University of Kentucky, Lexington, KY
| 4B.5
10:45 | Quantum Yield of CO from the Photolysis of Aliphatic Carbonyls: Implications for the Photochemical Stability of Organic Aerosols. ADAM P. BATEMAN (1), Joshua E. Klobas (1), Sergey A. Nizkorodov (1), (1) University of California, Irvine
| 4B.6
11:00 | Formation of HONO via heterogeneous reaction of nitric acid and primary organic aerosol. QUENTIN G. J. MALLOY (1), Robert J. Griffin (1), Jack E. Dibb (2), (1) Rice University, (2) University of New Hampshire
| 4B.7
11:15 | Influence of Dilution and Particle Fractal Dimension of Diesel Exhaust on Measured SOA Formation in a Smog Chamber. Shunsuke Nakao (1, 2), Manish Shrivastava (2, 3), Li Qi (1, 2), Heejung Jung (2, 4), David Cocker III (1, 2), 1) University of California, Riverside, Department of Chemical and Environmental Engineering 2) College of Engineering – Center for Environmental Research and Technology (CE-CERT) 3) Currently at Pacific Northwest National Laboratory 4) University of California, Riverside, Department of Mechanical Engineering
|
4C AEROSOL PHYSICS III
A 106
Mikhail Paramonov and Bo Yang, chairs
4C.1
9:45 | Resolving the Mystery of Sulfuric Acid in Atmospheric Nucleation. MIKKO SIPILÄ (1,2,3), Torsten Berndt (1) Tuukka Petäjä (2) David Brus (4,5), Joonas Vanhanen (2), Frank Stratmann (1), Johanna Patokoski (2) ,Roy L. Mauldin III (6), Antti-Pekka Hyvärinen (5), Heikki Lihavainen (5), Ari Asmi (2), Veli-Matti Kerminen (2,5) Markku Kulmala (2,7), (1) Leibniz-Institute for Tropospheric Research, Leipzig, Germany (2) University of Helsinki, Finland. (3) Helsinki Institute of Physics, Finland. (4) Institute of Chemical Process Fundamentals Academy of Sciences of the Czech Republic, Prague. (5) Finnish Meteorological Institute, Helsinki, Finland (6) NCAR, Boulder (7) Stockholm University, Sweden.
| 4C.2
10:00 | New Particle Formation Observed Under the Sulfur Plume Influence in the North American Forests During the CABINEX-2009 Campaign. Vijay Kanawade(1), Mark Erupe(1), Shan-Hu Lee(1),Barry Lefer(2),Xianliang Zhou(3),Thomas Jobson(4), (1)Department of Chemistry, Kent State University, Ohio, (2)University of Houston, (3)State University of New York, Albany, (4)Washington State University
| 4C.3
10:15 | Aerosol Formation and Growth in Anthropogenic Sulfur Plumes. ROBIN G. STEVENS (1), Charles A. Brock (2), Molly K. Reed (3), James H. Crawford (4), John S. Holloway (2), Thomas B. Ryerson (2), L. Greg Huey (5), Jeffrey R. Pierce (1), (1) Dalhousie University, Halifax (2) NOAA, Boulder (3) Tennessee Technological University, Cookeville (4) NASA Langley Research Center, Hampton (5) Georgia Institute of Technology, Atlanta
| 4C.4
10:30 | Ultrafine Particle Growth: Better Predictions of Atmospheric Aerosol Number with Revised Organic Condensation Schemes. ILONA RIIPINEN (1, 2), Jeffrey R. Pierce (3), Taina Yli-Juuti (2), Tuomo Nieminen (2), Silja Häkkinen (2), Mikael Ehn (2), Heikki Junninen (2), Katrianne Lehtipalo (2), Tuukka Petäjä (2), Jay Slowik (4), Rachel Chang (4), Douglas R. Worsnop (5), Spyros N. Pandis (1, 6), Neil M. Donahue (1), Markku Kulmala (2), (1) Carnegie Mellon University (2) University of Helsinki, Finland (3) Dalhousie University (4) University of Toronto (5) Aerodyne Research Inc. (6) University of Patras, Greece
| 4C.5
10:45 | Turbulent Flow Fields Analysis and Aerosol Dynamics of Exhaust from a Diesel Engine inside Two Dilution Sampling Tunnels. BO YANG (1,2), Yan Wang (2), Ke Max Zhang (2), Eric M. Lipsky (3), Allen L. Robinson (4), (1) College of Automotive Engineering, Jilin University, Changchun, China, (2) Mechanical and Aerospace Engineering, Cornell University, Ithaca, NY, USA, (3) Engineering, Pennsylvania State University, McKeesport, PA, USA, (4) Department of Mechanical Engineering, Carnegie Mellon University, Pittsburgh, PA, USA
| 4C.6
11:00 | Modeling Coagulation, Evaporation, and Condensation Growth of Indoor Ultrafine Particles. DONGHYUN RIM (1), Chi Hoang (1), Jung-il Choi (2), Lance Wallace (1), (1) NIST, 100 Bureau Drive, MS8633, Gaithersburg, Maryland (2) Department of Mechanical and Aerospace Engineering, North Carolina State University, Raleigh, North Carolina
| 4C.7
11:15 | Development of a new coupled computational fluid dynamics and gaseous chemistry/aerosol dynamics model for on-road, near-road and micro-environmental air quality applications. Yan Jason Wang (1), K Max Zhang (1), (1) Cornell University
|
4D URBAN AEROSOLS II
B 110/111/112
Roya Bahreini and Ari Setyan, chairs
4D.1
9:45 | Chemical characterization of aerosols downwind of urban centers, industrial sites, agricultural fields, and animal feeding lots in California. ROYA BAHREINI (1,2), Ann M. Middlebrook (2), Charles A. Brock (2), Joost de Gouw (1,2), John Holloway (1,2), Andy Neuman (1,2), John Nowak (1,2), Ilana Pollack (1,2), Thomas B. Ryerson (2), Carsten Warneke (1,2), David D. Parrish (2), (1) University of Colorado, CIRES, Boulder (2) NOAA ESRL, CSD, Boulder
| 4D.2
10:00 | Wintertime diurnal trends of carbonaceous aerosol next to a freeway in Las Vegas, Nevada. STEVEN G. BROWN (1,2), Taehyoung Lee (2), Jennifer L. DeWinter (1), Paul T. Roberts (1), Jeffrey L. Collett., Jr. (2), (1) Sonoma Technology, Inc., (2) Colorado State University
| 4D.3
10:15 | Characterization of the Chemical Composition and Sources of Submicron Particles at Fresno with a High-Resolution Aerosol Mass Spectrometer. ARI SETYAN (1), Yele Sun (1), Chris Ruehl (1), Qi Zhang (1), (1) University of California, Davis
| 4D.4
10:30 | Explaining the Excess Nitrate Observed in PM2.5 during Wintertime Conditions in Idaho’s Treasure Valley. GEORGE R. MWANIKI (1), Chelsea Rosenkrance (1), Shelley N. Pressley (1), H. William Wallace (1), B. Thomas Jobson (1), and Timothy M. VanReken (1), (1) Washington State University, Pullman
| 4D.5
10:45 | Investigation of the Seasonal Biases of PM2.5 Concentrations from the Community Multiscale Air Quality Model. RICK SAYLOR (1), Binyu Wang (1), Yunsoo Choi (1), Pius Lee (1), Tianfeng Chai (1), Hyun-Cheol Kim (1), Hsin-Mu Lin (1), Daniel Tong (1), Fantine Ngan (1), Ariel Stein (1), Daewon Byun (1), (1) NOAA Air Resources Laboratory
| 4D.6
11:00 | Fine Particle Emissions from Light Duty Vehicles: Gas-Particle Partitioning of Primary Organic Aerosol and Secondary Organic Aerosol Formation. ALBERT PRESTO (1), Timothy Gordon (1,2), Ngoc Nguyen (1,3), Andrew May (1,3), Chris Hennigan (1,3), Allen Robinson (1,2,3), Hector Maldonado (4), Sulekha Chattopadhyay (4), Alvaro Gutierrez (4), Matti Maricq (5), Eric Lipsky (6), (1) Center for Particle Studies, Carnegie Mellon University, (2) Engineering and Public Policy, Carnegie Mellon University, (3) Mechanical Engineering, Carnegie Mellon University, (4) California Air Resources Board, (5) Ford Motor Company, (6) Pennsylvania State University, Greater Allegheny
| 4D.7
11:15 | Investigating the Effects of Oxidation of Organic Molecular Marker Concentrations. ANIRBAN ROY (1), Kristina Wagstrom (2), (1), Spyros N Pandis (1,3), Peter J Adams (1), Allen L Robinson (1), (1) Carnegie Mellon University (2) University of Minnesota (3)University of Patras, Greece
|
4E SPECIAL SYMPOSIUM: AEROSOL DRUG DELIVERY I
B 117/118/119
Warren Finlay and Hak-Kim Chan/Reinhard Vehring, chairs
4E.1
9:45 | Uncertainty in Measurements of Spray Velocity Profiles of a Pressurized-Metered Dose Inhaler. BRIAN CROSLAND (1), Matthew Johnson (1), Edgar Matida (1), (1) Carleton University, Ottawa
| 4E.2
10:00 | Modeling Regional Lung Deposition and Disposition (ADME-PK) Behavior of Aerosolized Fentanyl following Inhaled Administration in Humans. SILADITYA RAY CHAUDHURI, Viera Lukacova, Michael B. Bolger, Walter S. Woltosz, Simulations Plus Inc., Lancaster, CA
| 4E.3
10:15 | Non-Symmetrical pMDI Deposition Measurement in Add-on Spacers. Gamal Alhegagi (1), Edgar Matida (1), (1) Carleton University, Ottawa, Canada
| 4E.4
10:30 | Simulation of Drug Delivery to Maxillary and Frontal Sinuses in the Realistic Model of Human Nasal Airways. OMID ABOUALI (1, 3), PEZHMAN FARHADI GHALATI (1), ERFAN KESHAVARZIAN (1), ABOLHASAN FARAMARZI (2), GOODARZ AHMADI (3), (1) School of Mechanical Engineering, Shiraz University, Shiraz, Iran (2) Ear, Throat and Nose Department, Shiraz University of Medical Science, Shiraz, Iran (3) Mechanical and Aeronautical Engineering Department, Clarkson University, Potsdam, NY, USA
| 4E.5
10:45 | Numerical Simulation of pMDI Aerosol Deposition in Add-on Spacers. EDGAR MATIDA (1), Gamal Alhegagi (1), (1) Carleton University
| 4E.6
11:00 | Uniform and Efficient Delivery of Combination Therapies from Pressurized Metered Dose Inhalers. REINHARD VEHRING (1), Vidya Joshi (2), Robert Schultz (2), Brian Noga (2), Brad Flynn (2), Mark Sommerville (2), Harris Cummings (2), David Lechuga-Ballesteros (2) and Sarvajna Dwivedi (2), (1) University of Alberta, (2) Pearl Therapeutics. Inc., Redwood City
| 4E.7
11:15 | Therapeutic Respiratory Gases and Aerosols. GEORGES CAILLIBOTTE (1) Ira Katz (1), (1) Air Liquide / R&D, Les Loges en Josas (France)
|
Wednesday 11:30 AM - 1:00 PM
Lunch (on your own) Wednesday 1:00 PM - 2:45 PM
Session 5: Platform
5A CARBONACEOUS AEROSOLS IN THE ATMOSPHERE III
B 113/114
Rodney Weber and Maria Cristina Facchini, chairs
5A.1
1:00 | Contributions of biogenic volatile organic compounds to aerosol production in a mixed forest. KERRI PRATT (1), Levi Mielke (1,2), Jonathan Slade Jr. (1,3), Paul Shepson (1), Detlev Helmig (4), (1) Purdue University (2) University of Calgary (3) Washington State University (4) University of Colorado, Boulder
| 5A.2
1:15 | alpha-Pinene Secondary Organic Aerosol Aging Under Various Light Conditions. KAYTLIN M HENRY (1), Neil M Donahue (1), (1) Carnegie Mellon University, Pittsburgh
| 5A.3
1:30 | SOA Formation from the Reaction of Isoprene with NO3 Radicals. M. Jaoui (1), K. Docherty (1), T. Gerald (1), E. Corse (1), T.E. Kleindienst (2), J.H. Offenberg (2), M. Lewandowski (2), (1) Alion Science and Technology, Inc., P.O. Box 12313, RTP, NC 27709, (2) NERL, U.S. EPA, RTP, NC 27711.
| 5A.4
1:45 | Characterization of Oligomers in Biogenic Secondary Organic Aerosol by High-Resolution Mass Spectrometry and Infrared Multi-Photon Dissociation. WILEY A. HALL 4th (1), Murray Johnston (1), (1) University of Delaware
| 5A.5
2:00 | Chemical Characterization of Organic Nanoparticles Formed in a Biogenic Aerosol Chamber. PAUL M. WINKLER (1) John Ortega (1) Kelly Barsanti (2) Hans R. Friedli (1) James N. Smith (1), (3), (1) National Center for Atmospheric Research, Boulder (2) Portland State University, Portland (3) University of Eastern Finland, Kuopio
| 5A.6
2:15 | Effects of Bark Beetle Infestation on Secondary Organic Aerosol Precursors in Western United States. KARA HUFF HARTZ (1), Hardik Amin (1), P. Tyson Atkins (2), Craig Dodson (3), A. Gannet Hallar (3), Rachel Russo (4), Barkley Sive (4), (1) Southern Illinois University Carbondale, Carbondale, IL, (2) Desert Research Institute, Storm Peak Laboratory, Steamboat Springs, CO, (3) Mesa State College, Grand Junction, CO, (4) University of New Hampshire, Durham, NC,
| 5A.7
2:30 | Seasonal Variations in Microbial Phylogeny and the Atmospheric Pools of Primary Biopolymers in Temperate Sub-Alpine Settings, Colorado USA. ALINA M. HANDOREAN (1), Kevin M. McCabe (1), Alison Ling (1) and Mark T. Hernandez (1), (1) University of Colorado at Boulder
|
5B AEROSOL CHEMISTRY IV
B 115/116
Karl Froyd and Arthur Chan, chairs
5B.1
1:00 | The Impact of Deliquescence on Cr(VI) in Ambient PM Samples. MEHDI AMOUEI TORKMAHALLEH (1), Thomas M. Holsen (1), Philip K. Hopke (1), (1) Center for Air Resource Engineering and Science, Clarkson University
| 5B.2
1:15 | Size-dependent Reactions of Ammonium Bisulfate Nuclei. BRYAN R. BZDEK (1), Douglas P. Ridge (1), Murray V. Johnston (1), (1) Department of Chemistry & Biochemistry, University of Delaware
| 5B.3
1:30 | Mechanism of Secondary Organic Aerosol Formation from Aldehyde Photooxidation: Role of Molecular Structure and NOx Concentrations. ARTHUR W. H. CHAN (1), Man Nin Chan (1), Jason D. Surratt (1), Puneet S. Chhabra (1), Christine L. Loza (1), John D. Crounse (1), Lindsay D. Yee (1), Richard C. Flagan (1), Paul O. Wennberg (1), John H. Seinfeld (1), (1) California Institute of Technology
| 5B.4
1:45 | Biogenic Secondary Organic Aerosol: Observations and Predictions. QI CHEN (1), Yingjun Liu (1), Yongjie Li (2), Scot T. Martin (1), (1) School of Engineering and Applied Sciences & Department of Earth and Planetary Sciences, Harvard University, Cambridge, Massachusetts, USA (2) Environmental Engineering Program, Hong Kong University of Science and Technology, Hong Kong, China
| 5B.5
2:00 | Surface Reductive Capacity of Graphitic Carbon Particles. Wonjoong Hwang (1), BING GUO (1), (1) Texas A&M University, College Station
| 5B.6
2:15 | Organosulfate Formation in the Submicron Organic Aerosol Internally Mixed with Sulfuric Acid. Jiaying Li (1), Myoseon Jang (1), (1) Department of Environmental Engineering Sciences, University of Florida
| 5B.7
2:30 | Isoprene-derived organosulfates in free tropospheric aerosols. Karl D. Froyd (1,2), Shane Murphy (1), Daniel M. Murphy (1), Nathan C. Eddingsaas (3) , (1) NOAA Earth System Research Laboratory, Chemical Sciences Division, Boulder, CO (2) Cooperative Institute for Research in Environmental Science, University of Colorado, Boulder, CO (3) California Institute of Technology, Pasadena, CA
|
5C COMBUSTION II
A 106
Linsey Marr and Barbara Zielinska, chairs
5C.1
1:00 | Second-by-Second On-Board Real-World Particle Number Emissions for Comparable Conventional and Hybrid-Electric Gasoline Vehicles in a City Driving Environment. MITCHELL K. ROBINSON (1), Britt A. Holmén (1), (1) University of Vermont
| 5C.2
1:15 | Particulate Emissions from an Ethanol Fueled HCCI Engine. LUKE FRANKLIN (1), Anil Bika (1), David Kittelson (1), (1) University of Minnesota
| 5C.3
1:30 | PM emissions from GDI vehicles: Sampling and Measurement Issues Related to Meeting Emissions Standards. Matti Maricq, Ford Motor Co., Dearborn, MI
| 5C.4
1:45 | Comparison of New and Old Diesel Engine Emissions. BARBARA ZIELINSKA (1), Eric Fujita (1) and Imad A. Khalek(2), (1) Desert Research Institute, Reno, NV (2) Southwest Research Institute, San Antonio, TX
| 5C.5
2:00 | Influence of Nano-Scale Cerium Oxide Fuel Born Catalysts on Primary and Secondary Particulate Matter from Diesel Exhaust. MICHAEL LEWANDOWSKI (1), John H. Offenberg (1), Tadeusz E. Kleindienst (1), Kasey D. Kovalcik (1), Robert D. Willis (1), Kenneth S. Docherty (2), J. Patrick Pancras (2), Mohammed Jaoui (2), (1) U.S. Environmental Protection Agency, National Exposure Research Laboratory (2) Alion Science and Technology, Inc.
| 5C.6
2:15 | Comparing Secondary Organic Aerosol Production from Exhaust from a Diesel Engine Operating on Biodiesel and Petroleum Diesel Fuels. TIMOTHY GORDON (1,2), Allen Robinson (1,2,3), (1) Center for Atmospheric Particle Studies, Carnegie Mellon University (2) Engineering and Public Policy, Carnegie Mellon University (3) Mechanical Engineering, Carnegie Mellon University
| 5C.7
2:30 | Air Pollution Impacts of Conventional and Alternative Fuels. KRISTINA WAGSTROM, Chris Tessum, Jason Hill, Julian Marshall , University of Minnesota, Twin Cities
|
5D URBAN AEROSOLS III
B 110/111/112
James Schwab and Xing Wang, chairs
5D.1
1:00 | What Commuters Can Do to Lower Their In-cabin Exposure to Ultrafine Particles?. BIN XU (1), Yifang Zhu (1), (1) Texas A&M University-Kingsville, Kingsville
| 5D.2
1:15 | Life in the Big City: Evolution of Particle Concentration, Size Distribution, and Composition on a "Typical" Summer Day in Queens, New York City. JAMES J. SCHWAB (1), Min-Suk Bae (1), Olga Hogrefe (1), G. Garland Lala (1), Kenneth L. Demerjian (1), Qi Zhang (2), Yele Sun (2), Wei-Nai Chan (3), Yu-Chi Li (3), Hui-Ming Hung (4), Brian P. Frank (5), H. D. Felton (5), Oliver Rattigan (5), (1) ASRC, University at Albany, SUNY, (2) University of California, Davis, (3) RCEC, Academia Sinica, Taipei, Taiwan, (4) National Taiwan University, Taipei, Taiwan, (5) New York State DEC, Albany, NY
| 5D.3
1:30 | Pollutant Plume Structure and Development from Traffic Emissions near a Highway. Meilu He (1), Suresh Dhaniyala (1), (1) Clarkson University
| 5D.4
1:45 | Effects of Vegetation Barrier on Particle Dispersion in Near Road Environments. JONATHAN STEFFENS (1), Ke Zhang (1), (1) Mechanical and Aerospace Engineering, Cornell University, Ithaca, NY, USA
| 5D.5
2:00 | On-road emission factor distributions of individual diesel vehicles in and around Beijing. XING WANG(1), Dane Westerdahl(1), Ye Wu(2), Xiaochuan Pan(3), Ke Max Zhang(1), (1) Sibley School of Mechanical and Aerospace Engineering, Cornell University, (2) Department of Environmental Science and Engineering, Tsinghua University, Beijing, (3)Department of Occupational and Environmental Health, Peking University School of Public Health
| 5D.6
2:15 | Outdoor Ultrafine Particle Concentrations in Edmonton, Canada. LANCE WALLACE (1), Warren Kindzierski (2), Ryan Kulka (3), Keith van Ryswyk (3), Jill Kearney (3), Amanda Wheeler (3), (1) Consultant, Reston, VA (2) University of Alberta, Alberta, Canada (3) Health Canada, Ottawa, Canada
| 5D.7
2:30 | Particle Size Distributions of Metal and Non-Metal Elements in an Urban Near-Highway Environment. MICHAEL D. HAYS (1), Seung-Hyun Cho (1,2), Richard Baldauf (1,3), James J. Schauer (4,5), Martin Shafer (4,5), (1) U.S. Environmental Protection Agency -- Office of Research and Development, (2) Oak Ridge Institute for Science and Education, (3) U.S. Environmental Protection Agency -- Office of Transportation and Air Quality, (4) University of Wisconsin–Madison, (5) Wisconsin State Laboratory of Hygiene
|
5E SPECIAL SYMPOSIUM: AEROSOL DRUG DELIVERY II
B 117/118/119
Warren Finlay and Hak-Kim Chan/Reinhard Vehring, chairs
5E.1
1:00 | In vitro Lung Delivery of Respirable Powders Containing Bacteriophages PhiKZ and KS4-M for Treatment of Burkholderia Cepacia Complex and Pseudomonas Aeruginosa Infections in Cystic Fibrosis. L. Golshahi (1), K. H. Lynch (1), J. J. Dennis (1), W. H. Finlay (1), (1) University of Alberta
| 5E.2
1:15 | Controlled Surface Roughness of Nano-Matrices Improves Aerosol Performance. PHILIP CHI LIP KWOK (1), Amolnat Tunsirikongkon (2), William Glover (3), Hak-Kim Chan (1), (1) Faculty of Pharmacy, The University of Sydney, Camperdown, NSW 2006, Australia, (2) Faculty of Pharmaceutical Sciences, Chulalongkorn University, Bangkok, Thailand, (3) GSK Consumer Health, 82 Hughes Avenue, Ermington, NSW 2115, Australia
| 5E.3
1:30 | Discrete Simulation of the Dispersion of Dry Powder in Pharmaceutical Aerosol Inhalers. Z.B. Tong (1), R.Y. YANG (1), A.B. Yu (1), S. Adi (2), H.-K. Chan (2), (1) Lab for Simulation and Modelling of Particulate System, School of Materials Science and Engineering, University of New South Wales (2) Faculty of Pharmacy, University of Sydney, NSW 2006, Australia
| 5E.4
1:45 | Investigating Electrostatic Characteristics in Pharmaceutical Aerosols. DANIELA TRAINI (1), Paul M. Young (1), Hak-Kim Chan (1), Susan Hoe (1), (1) Advanced Drug Delivery Group, Faculty of Pharmacy, The University of Sydney, Sydney, Australia
| 5E.5
2:00 | Application of Atomic Force Microscopy Techniques in Aerosol Medicine. PAUL YOUNG, University of Sydney, Australia
| 5E.6
2:15 | Porous Particles Improve Dose Consistency and Patient Compliance. JEFFRY WEERS (1), (1) Novartis Pharmaceutical Corp, San Carlos
| 5E.7
2:30 | Method to Introduce Mannitol Powder to Intubated Patients to Improve Sputum Clearance. HAK-KIM CHAN (1), Patricia Tang (2), Dorrilyn Rajbhandari (3), Paul Phipps (4), (1) and (2) Faculty of Pharmacy, The University of Sydney, (3) and (4) Intensive Care Services, Royal Prince Alfred Hospital
|
Wednesday 2:45 PM - 3:15 PM
Coffee Break
Wednesday 3:15 PM - 5:00 PM
Session 6: Platform
6A CARBONACEOUS AEROSOLS IN THE ATMOSPHERE IV
B 113/114
Kara Huff Hartz and Jeffrey Roberts, chairs
6A.1
3:15 | Reframing the Organic Aerosol Debate by Reconciling Functional Group Composition in Chamber and Atmospheric Particles. LYNN RUSSELL (1), Ranjit Bahadur (1), Paul Ziemann (2), (1) Scripps Institution of Oceanography, University of California, San Diego, (2) University of California, Riverside
| 6A.2
3:30 | Evidence of a biogenic source of oxalic acid in marine aerosol. MARIA CRISTINA FACCHINI (1) , Matteo Rinaldi (1) , Darius Ceburnis (2) , Colin D. O’Dowd (2) , Jean . Sciare (3), John P. Burrows (4) , (1) Institute of Atmospheric Sciences and Climate (ISAC-CNR), Italy (2) Department of Experimental Physics & Environmental Change Institute, National University of Ireland Galway, University Road, Galway, Ireland (3) Laboratoire des Sciences du Climat et de l’Environnement, CNRS-CEA-IPSL, Gif-sur-Yvette, France. (4) Institute of Environmental Physics and Remote Sensing, IUP, University of Bremen, Germany.
| 6A.3
3:45 | Processing of carbonaceous material by fogs. P. HERCKES (1), J.W. Hutchings (1), Y. Wang (1), H. Hill (1), J. Wang (2), and P.W. Westerhoff (2) , (1) Arizona State University, Dept. of Chemistry and Biochemistry, Tempe AZ 85287-1604, United States (2) Arizona State University, School of Sustainable Engineering and The Built Environment, Tempe AZ 85287-5306, United States
| 6A.4
4:00 | Water-Soluble Secondary Organic Aerosol, Brown Carbon and Oxalic Acid in the Southeastern United States. RODNEY J. WEBER (1), Arsineh Hecobian (1), Xiaolu Zhang (1), Mei Zheng (1), Neil Frank (2), (1) Department of Earth and Atmospheric Sciences, Georgia Institute of Technology, 30332, Atlanta, USA (2) Office of Air Quality Planning & Standards, US EPA, Research Triangle Park, NC, USA
| 6A.5
4:15 | High Molecular Weight Polycyclic Aromatic Hydrocarbons (MW=302) in Particulate Matter Samples Collected during the 2008 Beijing Olympics. YULING JIA (1), Jill Schrlau (1), Wentao Wang (2), Shu Tao (2), Staci Simonich (1), (1) Department of Environmental Molecular and Toxicology, Oregon State University, Corvallis, OR (2) College of Urban and Environmental Science, Peking University, Beijing, China
| 6A.6
4:30 | Emissions of Indoor Air Pollutants from Biomass Fuels Used in Northern region of India and Assessment of Associated Health Risk. RANU GADI (1), D.P. Singh (1), Trailokya Saud (2) and T.K Mandal (2) , (1) GGS Indraprastha University, Delhi, India, (2) National Physical Laboratory, New Delhi, India
| 6A.7
4:45 | Predicting Regional Formation of Secondary Organic Aerosol using the Master Chemical Mechanism. QI YING (1), Jingyi Li (1), (1) Texas A&M University
|
6B INSTRUMENTATION AND METHODS III
B 115/116
Jay Turner and Pramod Kulkarni, chairs
6B.1
3:15 | Measurements of dual-excitation-wavelength fluorescence spectra of individual airborne pollens and spores and their classification using principal component analysis. YONG-LE PAN (1), Steven C. Hill (1), Ronald G. Pinnick (1) , (1) US Army Research Laboratory
| 6B.2
3:30 | Determination of the size distribution of aerosol concentration without impactors. PAOLO PRATI (1) , Vera Bernardoni (2), Eleonora Cuccia (1), Dario Massabò (1), Gianluigi Valli (2), Roberta Vecchi (2), (1) Department of Physics, University of Genova and I.N.F.N., Via Dodecaneso 33, 16146, Genova, Italy (2) Department of Physics, Università degli Studi di Milano and I.N.F.N.,Via Celoria 16, 20133, Milano, Italy
| 6B.3
3:45 | Field Performance Evaluation of the Cooper Environmental Services Ambient Metals Monitor (Xact 620) for Near-Real Time PM10 Metals Monitoring. VARUN YADAV (1), Jay Turner (1), Krag Petterson (2), John Cooper (2), (1) Washington University in St. Louis, (2) Cooper Environmental Services
| 6B.4
4:00 | Gaseous and Particulate Species Emissions from Different Forest Management Strategies Employing Prescribed Burning. KARSTEN BAUMANN (1), J. Mike Fort (1), Jamie J. Schauer (2), Don R. Blake (3), Ben E. Hartsell (4), Eric S. Edgerton (1), (1) ARA Inc., Research Triangle Park, (2) University of Wisconsin, Madison, (3) University of California, Irvine, (4) ARA Inc., Plano
| 6B.5
4:15 | Semi-continuous Measurement of Elemental Composition of Aerosol Particles Using Laser Induced Breakdown Spectroscopy. PRASOON DIWAKAR(1), Pramod Kulkarni(1), Eileen Birch(1), (1) Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health, Cincinnati OH
| 6B.6
4:30 | Development of a Portable Coal Dust Analyzer for Silica by Laser Induced Breakdown Spectroscopy. Christopher B. Stipe (1), Arthur L. Miller (2), Gregg A. Lithgow (3), and Steven G. Buckley (3), (1) Seattle University (2) National Institute for Occupational Health and Safety (3) Photon Machines, Inc.
| 6B.7
4:45 | Fine Particle Speciation using FTIR. ANN (BETH) WITTIG (1), Vilma Arriaran La Torre (1), (1) City University of New York, City College of New York
|
6C COMBUSTION III
B 117/118/119
Toni Miguel and Tami Bond, chairs
6C.1
3:15 | Characterization of biofuel emission profiles from in-use field tests and laboratory tests. YANJU CHEN (1), Tami C. Bond (1), Christoph A. Roden(1, 2), Nordica MacCarty (3), (1) Department of Civil and Environmental Engineering, University of Illinois at Urbana-Champaign, Urbana, IL (2) Now at SPEC Inc, Boulder, CO (3) Aprovecho Research, Creswell, OR
| 6C.2
3:30 | Determination of the Fine Particle Emissions from Wood-Fired Hydronic Heaters. JOHN S. KINSEY, U. S. Environmental Protection Agency Office of Research and Development National Risk Management Research Laboratory
| 6C.3
3:45 | Performance Evaluation of a Model Electrostatic Precipitator for an Advanced Wood Combustion (AWC) System. MARK OMARA (1), Philip K. Hopke (1), Suresh Raja (1), Thomas M. Holsen (1), (1) Center for Air Resources Engineering and Science, Clarkson Univeristy
| 6C.4
4:00 | Particle Size Distributions During Laboratory-Scale Biomass Burns and Prescribed Burns Using Fast Response Instruments. HEEJUNG JUNG (1), SeyedEhsan Hosseini (1), Qi Li (1), David Cocker (1), Art Miller (2), Manish Shrivastava (3), David Weise (4), Shankar Mahalingam (1), Marko Princevac (1), Wayne Miller (1), (1) University of California, Riverside, (2) National Institutes for Occupational Safety and Health (NIOSH), (3) Pacific Northwest National Laboratory, Richland, WA, (4) USDA Forest Service, Pacific Southwest Research Station, Forest Fire Laboratory, Riverside, CA
| 6C.5
4:15 | Impact of Alternative Fuels on Aviation related PM Emissions. PREM LOBO (1), Donald Hagen (1), Philip Whitefield (1), (1) Missouri University of Science and Technology
| 6C.6
4:30 | Emission Measurements from high efficiency Wood boilers. SRIRAAM RAMANATHAN CHANDRASEKARAN (1) James Laing (2) Suresh Raja (3) Thomas M Holsen (4) Philip K Hopke (5), (1)Center For Air Resources Engineering and Science, ClarksonUniversity (2)Center For Air Resources Engineering and Science, ClarksonUniversity (3)Center For Air Resources Engineering and Science, ClarksonUniversity (4)Center For Air Resources Engineering and Science, ClarksonUniversity (5)Center For Air Resources Engineering and Science, ClarksonUniversity
| 6C.7
4:45 | Laboratory Investigation of Nitro-PAH Formation in the Temperature Range of 298 – 423 K. REINHARD NIESSNER (1), Matteo Carrara (1), Jan-Christoph Wolf (1), (1) Institute of Hydrochemistry, Chair for Analytical Chemistry, Technical University of Munich, Germany
|
6D URBAN AEROSOLS IV
B 110/111/112
Cliff Davidson and Sang Rin Lee, chairs
6D.1
3:15 | First photoacoustic aerosol optics measurements at 355 nm; comparison with visible and near IR for laboratory generated and winter time urban ambient aerosols. MADHU GYAWALI (1), William Patrick Arnott (1), Rahul Zaveri (2), Chen Song (2), Hans Moosmüller (3), Li Liu (4), Michael Mishchenko (4), 1 University of Nevada, Reno,NV 2 Pacific Northwest National Laboratory, Richland, WA 3 Desert Research Institute, Reno, NV, 4 NASA Goddard Institute for Space Studies, NY
| 6D.2
3:30 | Optical properties of a heated aerosol in an urban atmosphere: a case study. JOHN BACKMAN (1), Aki Virkkula (1), Tuukka Petäjä (1), Minna Aurela (2), Anna Frey (2), Risto Hillamo (2), (1) University of Helsinki, FINLAND (2) Finnish Meteorological Institute
| 6D.3
3:45 | Da Vinci’s Last Supper—A 15th Century World Treasure and 21st Century Pollution. DANE WESTERDAHL (1), Ario Ruprecht (2), Grisa Mocnik (3), Giovanni Invernizzi (2), Franco Gasparini (4), Constantinos Sioutas (5), (1) Cornell University, Ithaca, (2) LARS Laboratorio di Ricerca Ambientale, Milan, Italy, (3) Aerosol d.o.o., Ljubljana, Slovenia, (4) Soprintendenza ai Beni Culturali e Paesaggistici della Lombardia, Milan, Italy, (5) University of Southern California, Los Angeles
| 6D.4
4:00 | PM10 and PM2.5 Chemical Characterization and Source Apportionment in the Lombardy Region, Italy. GIOVANNI LONATI (1), Senem Ozgen (1), Michele Giugliano (1), Cristina Colombi (2), Vorne Gianelle (2), (1) DIIAR Politecnico di Milano, Italy, (2) ARPA Lombardia, Milano
| 6D.5
4:15 | Passive Sampling for Characterizing Spatial Variability of the Composition of Coarse Particulate Matter (PM10-2.5) in Cleveland, OH. ERIC SAWVEL (1), Thomas Peters (1), Naresh Kumar (1), Robert Willis (2), (1) The University of Iowa, (2) National Exposure Research Laboratory, US Environmental Protection Agency
| 6D.6
4:30 | Using Statistical Regressions to Identify Factors Influencing PM2.5 Concentrations. Nanjun Chu (1), Joseph Kadane (1), CLIFF DAVIDSON (1), (1) Carnegie Mellon University
| 6D.7
4:45 | Supporting Multi-year, Spatial-Temporal Analysis of Health Data with Air Pollution through the Chemical Transport Modeling. Jaemeen Baek (1), Charles O. Stanier (1), Sinan Sousan (1), Jacob Oleson (1), Naresh Kumar (1), Gregory R. Carmichael (1) , (1) University of Iowa, Iowa
|
6E INDOOR AEROSOLS/EXPOSURE II
A 106
Sergey Grinshpun and Melissa Lunden, chairs
6E.1
3:15 | Air Quality in Mechanical Ventilated Undergroud Parking Garage in Tropical Urban Environment. VICTOR W. CHANG, Ailu Chen, Nanyang Technological University, Singapore
| 6E.2
3:30 | Measurements and predictors of in-cabin exchange rates and exposure to particulate pollutants in vehicles. NEELAKSHI HUDDA (1), Constantinos Sioutas (1), Ralph J. Delfino (2), Ali Attar (1), Scott Fruin (1), (1) University of Southern California, Los Angeles, CA (2) University of California, Irvine, CA
| 6E.3
3:45 | Indoor and Outdoor Aerosol Exposures at Schools and their Associations with Local Vehicular Traffic. SERGEY A GRINSHPUN (1), Heather Hochstetler (1), Michael Yermakov (1), Tiina Reponen (1), and Patrick H. Ryan (1), (1) Department of Environmental Health, University of Cincinnati, Cincinnati, Ohio
| 6E.4
4:00 | The Effect of PM2.5 Composition on the Fraction of Outdoor-Generated PM2.5 in Indoor Air. NATASHA HODAS (1), Melissa Lunden (2), Qing Yu Meng (3), David Rich (4), Haluk Ozkaynak (5), Barbara Turpin (1), (1) Rutgers University, New Brunswick, NJ, (2) Lawrence Berkeley National Laboratory, Berkeley, CA, (3) US EPA National Center for Environmental Assessment, Research Triangle Park, NC, (4) US EPA National Exposure Research Laboratory, Research Triangle Park, NC, (5) University of Medicine and Dentistry of New Jersey, School of Public Health, Piscataway, NJ
| 6E.5
4:15 | Biological Particle Size Distributions and Aerosol Dynamics in Occupied and Unoccupied Indoor Environments. Jing Qian (1) Denina Hospodsky (1) Naomichi Yamamoto (1,2) William Nazaroff (3) JORDAN PECCIA (1), (1) Yale University, (2) Japan Society for the Promotion of Science, (3) University of California, Berkeley
| 6E.6
4:30 | Indoor Monitoring of Fungal Bioaerosols For Their Genera and Concentration: A Baseline Study at Azad Jammu & Kashmir (Pakistan). JAWAD NASIR (1), Badar Ghauri (1), Said Rehman (1), Asif Noor (1), Abdul Mannan (1), Christian Khalil (2) , (1) Pakistan Space and Upper Atmosphere Research Commission (SUPARCO), (2) School of Risk & Safety Sciences, University of New South Wales, Australia
| 6E.7
4:45 | Profiles of Indoor Bioaerosols and Airborne Combustion Products Typical in Rural Peruvian Andean Communities. LUPITA D. MONTOYA (1), Odessa M. Gomez (1), Alina M. Handorean (1), Mark Hernandez (1), and Robert A. Canales (2) , (1) University of Colorado at Boulder, (2) The New School University, New York City
|
Wednesday 5:00 PM - 6:00 PM
AAAR Annual Business Meeting
Wednesday 6:00 PM - 7:00 PM
WG Meetings II (Aerosol Physics, Control Technology, Health Related Aerosols, Atmospheric Aerosols) Thursday 8:00 AM - 9:15 AM
Plenary III: Friedlander Lecture
8:00
| Friedlander Lecture: Environmental, Health and Safety Studies of Nanoparticles David Pui. University of Minnesota.
|
| Moderator: Peter McMurry. University of Minnesota.
| 9:00
| Friedlander Award Presentation, Mercer Award Announcement Da Ren Chen, Awards Committee Chair. Washington University.
|
Thursday 9:15 AM - 3:15 PM
Exhibits Open
Thursday 9:15 AM - 9:45 AM
Coffee Break
Thursday 9:45 AM - 11:30 AM
Session 7: Platform
7A AEROSOLS, CLOUDS AND CLIMATE IV
B 113/114
Akua Asa-Awuku and Vlassis Karydis, chairs
7A.1
9:45 | Probing Sesquiterpene SOA CCN: CCN Activity correlations with Density, Volatility, and Aerosol Mass Fragments. XIAOCHEN TANG (1), Ping Tang (1), David Cocker (1), Akua Asa-Awuku (1), (1) University of California, Riverside
| 7A.2
10:00 | Aerosol Indirect Forcing in NCAR CAM5: Sensitivity to Organic Hygroscopicity. XIAOHONG LIU (1), Jian Wang (2), (1) Pacific Northwest National Laboratory, Richland (2) Brookhaven National Laboratory, Upton
| 7A.3
10:15 | Methylglyoxal Enhances Aerosol Cloud Nucleation. Neha Sareen (1), Allison N. Schwier (1), Terry L. Lathem (2), Athanasios Nenes (2), V. FAYE MCNEILL (1) , (1) Columbia University, (2) Georgia Institute of Technology
| 7A.4
10:30 | Cloud activation properties of organic aerosols observed at an urban site during CalNex-LA. FAN MEI(1), Patrick Hayes(2), Amber Ortega(2), Jose-Luis Jimenez(2) and Jian Wang(1), (1) Brookhaven National Laboratory, (2) University of Colorado at Boulder
| 7A.5
10:45 | Single Particle Enrichment of Organic and Inorganic Material on Sea Spray Aerosols Influenced by Biological Activity. CASSANDRA J GASTON (1), Hiroshi Furutani (2), Brian Palenik (1), Kimberly A. Prather (1,3), (1) Scripps Institution of Oceanography (2) Ocean Research Institute, University of Tokyo, Japan (3) University of California, San Diego, Department of Chemistry and Biochemistry
| 7A.6
11:00 | Hygroscopicity, CCN Activity, Phase State and Morphology of Complex Laboratory and Ambient Aerosols with Comparison to SOA Studies. William Madry (1), David Marchese (1), Laura Cook (1), TIMOTHY RAYMOND (1), (1) Bucknell University
| 7A.7
11:15 | Resolving Estimates of Climate Forcing by Black Carbon. TAMI C. BOND (1), Colin Zarzycki (1), (1) University of Illinois at Urbana-Champaign
|
7B AEROSOL CHEMISTRY V
B 115/116
Sonia Kreidenweis and Doug Worsnop, chairs
7B.1
9:45 | Investigating the Volatility and Yield of SOA Formed from Aqueous Chemistry and Droplet Evaporation. DIANA ORTIZ-MONTALVO (1), Mark Perri (2), Sybil Seitzinger (3), Barbara Turpin (1), (1) Rutgers University, New Brunswick, NJ, (2) Sonoma State University, Sonoma, CA, (3) International Geosphere-Biosphere Program, Stockholm, Sweden
| 7B.2
10:00 | Afternoon Increase of Oxygenated Organic Functional Groups at a Coastal Site in Southern California. SHANG LIU (1), Douglas Day (1), Lynn Russell (1), (1) Scripps Institution of Oceanography, University of California, San Diego, California
| 7B.3
10:15 | Mass Spectrometry of Atmospheric Aerosol: 1 nanometer to 1 micron. DOUGLAS R WORSNOP (1,2), Mikael Ehn (1), Heikki Junninen (1), Siegfried Schobesberger (1), Alessandro Franchin (1), Miikka Dal Maso (1), Mikko Sipilä (1), Tuukka Petäjä (1), Theo Kurtén (1), Hanna Vehkamäki (1), Ismael K. Ortega (1), Markku Kulmala (1) , (1) Department of Physics, University of Helsinki, Helsinki, Finland (2) Aerodyne Research Inc., Billerica, MA, USA
| 7B.4
10:30 | Fragmentation vs. Functionalization: Extent of Oxidation Influence on SOA Formation. HEBER CHACON-MADRID (1), Neil Donahue (1), Albert Presto (1), (1) Carnegie Mellon University
| 7B.5
10:45 | Chemical Transformations of Chamber Organic Aerosol Using a High-Resolution Time-of-Flight Aerosol Mass Spectrometer. PUNEET S. CHHABRA (1), Nga Lee Ng (2), Manjula R. Canagaratna (2), Christine L. Loza (1), Lindsay D. Yee (1), Arthur W. H. Chan (1), Douglas R. Worsnop (2), Richard C. Flagan (1), John H. Seinfeld (1), (1) California Institute of Technology, Pasadena, CA (2) Aerodyne Research, Inc., Billerica, MA
| 7B.6
11:00 | High-Resolution Desorption Electrospray Ionization Mass Spectrometry for Chemical Characterization of Organic Aerosols. Julia Laskin (1), ALEXANDER LASKIN (2), Patrick J. Roach (1), Gordon W. Slysz (3), Gordon A. Anderson (3), Sergey A. Nizkorodov (4), David L. Bones (4), Lucas Q. Nguyen (4), (1) Chemical and Materials Sciences Division, (2) William R. Wiley Environmental Molecular Sciences Laboratory, (3) Biological Sciences Division, Pacific Northwest National Laboratory, P. O. Box 999, MSIN K8-88, Richland, WA 99352 (4) Department of Chemistry, University of California, Irvine, Irvine, CA 92697
| 7B.7
11:15 | Characterization of a Particle Thermodenuder for the Analysis of Aerosol Volatility and Composition. Cheol-Heon Jeong (1), Greg J. Evans (1), W. Richard Leaitch (2), John Liggio (2), (1) Southern Ontario Centre for Atmospheric Aerosol Research, University of Toronto, Toronto, Canada (2) Science and Technology Branch, Environment Canada, Toronto, Canada
|
7C NANOPARTICLES AND MATERIALS SYNTHESIS I
A 106
Sotiris Pratsinis and Sheryl Ehrman, chairs
7C.1
9:45 | Ultrasonic droplet generator investigation: Correlation between droplet size distribution and solution properties. Kai Zhong (1), Alex Langrock (1), George Peabody (1), Howard Glicksman (2) and SHERYL EHRMAN (1), , (1) University of Maryland, College Park, MD (2) DuPont Electronic Technologies, Research Triangle Park, NC
| 7C.2
10:00 | Scalable flame synthesis and growth of SiO2 nanowire films on plain glass as anti-fogging coatings. Antonio Tricoli(1), Marco Righettoni (1), Frank Krumeich (1), Wendelin J. Stark(2) and SOTIRIS E. PRATSINIS (1), (1) Department of Mechanical and Process Engineering, ETH Zurich, Zurich (2) Department of Chemistry and Applied Biosciences, ETH Zurich, Zurich
| 7C.3
10:15 | Magnetic Nanowire Synthesis from a Laminar Diffusion Flame. AAMIR D. ABID and Ian M. Kennedy, University of California, Davis
| 7C.4
10:30 | Mesoporous Cu-TiO2-SiO2 Photocatalyst Particles for CO2 Reduction via a Template-free Aerosol Process. WEI-NING WANG, Jinho Park, and Pratim Biswas, Washington University in St. Louis
| 7C.5
10:45 | Gold-Decorated Silica Nanoparticles via Physical Vapor Deposition. ADAM M. BOIES (1), Steven L. Girshick (1), (1) University of Minnesota, Twin Cities
| 7C.6
11:00 | Sensors for Highly Selective Detection of Acetone for Easy Diagnosis of Diabetes by Breath Analysis. Marco Righettoni, Antonio Tricoli, SOTIRIS E. PRATSINIS, Particle Technology Laboratory, Institute of Process Engineering, Department of Mechanical and Process Engineering, ETH Zurich, Zurich, Switzerland
| 7C.7
11:15 | Molecular Dynamics of Nanoparticle Sintering. BEAT BUESSER (1), ARTO GROHN (1), SOTIRIS E. PRATSINIS (1), (1) ETH Zurich
|
7D INSTRUMENTATION AND METHODS IV
B 110/111/112
Suresh Dhaniyala and Peter McMurry, chairs
7D.1
9:45 | Comparing Differential Electric Mobility Classifiers on a Level Playing Field. ANDREW J. DOWNARD (1), James F. Dama (1), Harmony G. Gates (1), Richard C. Flagan (1), (1) California Institute of Technology
| 7D.2
10:00 | A high-flow dual-channel differential mobility analyzer (HD-DMA). PRANEY DUBEY, Suresh Dhaniyala, Clarkson University
| 7D.3
10:15 | Factors Affecting Particle Size Distribution Merging: APS Counting Efficiency and SMPS Impactor Characterization. MARIT MEYER (1) Da-Ren Chen (1) Paul Greenberg (2), (1) Washington University in St. Louis (2) NASA Glenn Research Center, Cleveland
| 7D.4
10:30 | Characterizations of insoluble sub-micrometer particles suspended in seawater for primary marine aerosol production. JIYEON PARK, SUNIL KIM, and KIHONG PARK , Gwangju Institute of Science and Technology
| 7D.5
10:45 | Cross Flow-Ion Mobility Spectrometry (CF-IMS) for Continuous, High-resolution Monitoring of Volatile Organic Compounds. Anthony Wexler (1), SONYA COLLIER (1), (1) University of California, Davis
| 7D.6
11:00 | Inversion of Andersen Cascade Impactor Data using the Maximum Entropy Method. Yuriy Gulak (1), ERIC JAYJOCK (1), Fernando Muzzio (1), Andrea Bauer (2), Paul McGlynn (2), (1) Rutgers University, New Brunswick, NJ (2) Sepracor, Marlborough, Ma
| 7D.7
11:15 | Direct Measurement of Phase Association in Aerosol Particles by High-Throughput Automated SEM/EDX. ANNETTE KOLODZIE (1), Herman Lemmens (2), (1) FEI Company, USA, (2) FEI Company, Netherlands
|
7E URBAN AEROSOLS V
B 117/118/119
Michael Kleeman and Jaemeen Baek, chairs
7E.1
9:45 | Atmospheric Particle Surface Area Concentration and Number Size Distribution Measurements. Thomas A.J. Kuhlbusch (1), CHRISTOF ASBACH (1), Heinz Fissan (1), Heinz Kaminski (1), (1) Institute of Energy and Environmental Technology (IUTA) e.V., Duisburg, Germany
| 7E.2
10:00 | Fine-scale Spatio-temporal Variability of Ultrafine Particle Number Concentrations within Urban Communities. YUNGANG WANG (1), Philip K. Hopke (1), David C. Chalupa (2), Mark J. Utell (2), (1) Center for Air Resource Engineering and Science, Clarkson University, Potsdam, NY, USA, (2) Department of Environmental Medicine, University of Rochester Medical Center, Rochester, NY, USA
| 7E.3
10:15 | Particle Number (PN) Concentrations of Ultra-fine Particulate (UFP) at Five US Locations. K. A. ERICKSON (1), M. Koch (2), J. J. Schwab (3), B. C. Anderson (1), J. A. Baker (1), R. Caldow (1), K. A. Prather (4), M. D. Zauscher (5), J. F. Cahill (6), S. V. Hering (7), F. R. Quant (8), S. Morell (8), B. L. Osmondson (1), (1) TSI Incorporated, Shoreview, MN, (2) South Coast Air Quality Management District, Long Beach, CA, (3) University at Albany, State University of New York, (4) Dept. of Dept of Chemistry & Biochemistry, University of California, San Diego; Scripps Institution of Oceanography, (5) Dept of Mechanical & Aerospace Engineering, University of California, San Diego, (6) Dept of Chemistry & Biochemistry, University of California, San Diego, (7) Aerosol Dynamics Inc., Berkeley, CA, (8) Quant Technologies, Blaine, MN
| 7E.4
10:30 | Inter-urban Variability and Source Apportionment of Fine and Coarse Particulate Matter in Dearborn, Michigan. DAVYDA HAMMOND (1), Matthew Landis (1), Patrick Pancras (2), Timothy Dvonch (3), Ram Vedantham (1), Gary Norris (1) , (1) U.S. EPA, National Exposure Research Laboratory, RTP, NC (2) Alion Science and Technology, RTP, NC (3) University of Michigan, School of Public Health, Ann Arbor, MI
| 7E.5
10:45 | The evaluation of Personal Exposure Aerosol Screening Model (PEASM) using the Long Beach Harbor Community Air Quality Study. Sang-Rin Lee(1)(2), Nicole Riemer(3), Matthew West(3), Rahul A Zaveri(4), Katharine Moore(5), Constantinos Sioutas(5), Ralph Delfino(6), Alberto Ayala(7), and Charles O Stanier(1)(2), (1) University of Iowa, Iowa city (2) IIHR-Hydroscience & Engineering, Iowa city (3) University of Illinois, Urbana-Champaign (4) Pacific Northwest National Laboratory, WA (5) University Southern California, LA (6) University of California, Irvine (7) California Air Resource Board, Sacramento
| 7E.6
11:00 | Chemical Speciation of Trace Metals for Coarse Particulate Matter in the Los Angeles Area. PAYAM PAKBIN (1), Zhi Ning (1), James J. Schauer (2), Constantinos Sioutas (1), (1) University of Southern California (2) University of Wisconsin-Madison
| 7E.7
11:15 | Estimating Climate Impact on Population-Weighted Airborne Particulate Matter Concentrations in California during Extreme Events. Abdullah Mahmud (1) Mark Hixson (1) Zhan Zhao (1) Shu-Hua Chen (1) Michael J. Kleeman (1), (1) University of California, Davis
|
Thursday 11:30 AM - 1:20 PM
Session 8: Poster with boxed lunch
8A REMOTE & REGIONAL ATMOSPHERIC AEROSOLS I
EXHIBIT HALL
8A.1
| Modeling the Marine Aerosols in a Coupled Climate and Sectional Microphysical Model: Optical Depth and Number Concentration. TIANYI FAN (1), Owen B. Toon (1), (1) University of Colorado, Boulder
| 8A.2
| Examining urban excess in PM2.5 speciated aerosol concentrations with the IMPROVE and CSN networks. Jenny Hand (1), Bret Schichtel (2), William Malm (1), Warren White (3), Lowell Ashbaugh (3), Chuck McDade (3), Marc Pitchford (4), (1) Cooperative Institute for Research in the Atmosphere, Colorado State University, Fort Collins (2) National Park Service, Air Resource Division, Fort Collins (3) Crocker Nuclear Laboratory, University of California, Davis (4) NOAA, Desert Research Institute, Las Vegas
| 8A.3
| Aerosol optical properties observed over high altitude station Hanle in Ladakh. NEEHARIKA SINHA (1), S.P. Bagare (1), Shantikumar Singh Ningombam (1), Rajendra Bahadur Singh (1), (1) Indian Institute of Astrophysics, Bangalore
| 8A.4
| Modeling of Dust: Incorporating the Wind Erosion Prediction System (WEPS) into a Regional Air Quality Modeling System. SERENA H. CHUNG (1), Jincheng Gao (2), Larry E. Wagner (3), Joseph Vaughan (1), Drew A. Polley (1), Timothy M. VanReken (1), Brian K. Lamb (1), (1) Washington State University, Pullman (2) Kansas State University, Manhattan (3) United States Department of Agriculture-Agricultural Research Service Engineering and Wind Erosion Unit, Manhattan, Kansas
| 8A.5
| Aerosol Composition in the Foothills of California's Sierra Nevada: measured properties of cloud condensation nuclei and estimated hygroscopicity during Calwater 2010. Melanie D. Zauscher (1), Kaitlyn Suski (2), Jack F. Cahill (2), Gregory C. Roberts (3), Amy P. Sullivan (4), Jeffrey L. Collett (4), Gregory S. Lewis (5), Susanne V. Hering (5), Kimberly A. Prather (2,3), (1) Department of Mechanical and Aerospace Engineering, University of California, San Diego (2) Department of Chemistry and Biochemistry, University of California, San Diego (3) Scripps Institution of Oceanography, University of California, San Diego (4) Department of Atmospheric Science, Colorado State University, Fort Collins (5) Aerosol Dynamics, Inc
| 8A.6
| Atmospheric NHx monitoring: a pilot study at selected IMPROVE sites. XI CHEN (1), Derek Day (2), Bret Schichtel (2), William Malm (2), Jose Mojica (3), Chuck McDade (3), Sonia M. Kreidenweis (1), and Jeffrey Collett, Jr. (1), (1) Atmospheric Science Department, Colorado State University, Fort Collins (2) NPS/CIRA, Colorado State University, Fort Collins (3) Crocker Nuclear Laboratory, University of California, Davis
| 8A.7
| Transpacific transport of Eastern Asian aerosols based on the climatology of MODIS observations. D. CHAND (1), B. Schichtel (2), R. Wood (3), W. C. Malm (2), S. McClure (1), T. Moore (4), 1. Cooperative Institute for Research in the Atmosphere, Colorado State University, Fort Collins, CO 80523 USA. 2. Air Resources Division, National Park Service Fort Collins, CO 80523, USA 3. University of Washington, Seattle, WA 98095, USA. 4. Western Regional Air Partnership, Western Governors’ Association, Fort Collins, CO 80523, USA
| 8A.8
| Regional Transport of Atmospheric Aerosol in Central Asia: Characteristics and Provenance of Dust Events Observed in the Kyrgyz Republic. MARTIN SHAFER (1), James Schauer (1), Justin Miller-Schulze (1), Paul Solomon (2), Boris Chen (3), Sanjar Imashev (3), Maria Artamonova (4), Greg Carmichael (5), (1) University of Wisconsin-Madison, Madison, (2) U.S. EPA ORD, Las Vegas, (3) Kyrgyz-Russian Slavic University, Bishkek, Kyrgyz Republic, (4) Institute of Atmospheric Physics, Moscow, Russia, (5) University of Iowa, Iowa City
| 8A.9
| Assessment of Dimming area and its classification by type (haze, fog) using satellite data over Punjab, Pakistan. Badar Ghauri(1), ARIFA LODHI(1), Shoaib Shafique(1), Siraj Munir(1), Saqlain Abbas(1) , (1) Pakistan Space and Upper Atmosphere Research Commission (SUPARCO)
|
8B URBAN AEROSOLS VI
EXHIBIT HALL
8B.1
| Air Quality Impact Analysis of California’s Greenhouse Gas Mitigation Policy, AB32. CHRISTINA ZAPATA (1), Mark Hixson (1), Michael J. Kleeman (1), (1) Department of Civil and Environmental Engineering, University of California, Davis
| 8B.2
| Ultrafine Particles near a Roadway Intersection: Origin and Apportionment of Fast Changes in Concentration. JOSEPH KLEMS (1), Murray V. Johnston (1), M. Ross Pennington (1), Christopher A. Zordan (1), (1) University of Delaware
| 8B.3
| Source Signatures of Organic Compounds in the Particle Phase in Bakersfield, CA. SHANG LIU (1), Douglas Day (1), Lynn Russell (1), Scripps Institution of Oceanography, University of California, San Diego, California
| 8B.4
| Characterstics of Polycyclic Aromatic Hydrocarbons (PAHs) in Indoor and outdoor Air in different seasons of Rural India. JAMSON MASIH (1), Ajay Taneja (1,2), Raj Singhvi (3), (1) ST. JOHN'S COLLEGE, AGRA, (2) IBS KHANDARI, DR. B.R.A.U, AGRA, (3) USEPA, ERT, NJ USA
| 8B.5
| Spatial Measurements of Ultrafine Particles Using an Engine Exhaust Particle SizerTM within a Local Community Downwind of a Major International Trade Bridge in Buffalo, NY. Timothy R McAuley (1) Andrea Ferro (2) John Spengler (3) Philip Hopke (4) Peter A Jaques (5), (1) Consulting for Health, Air, Nature, & a Greener Environment (CHANGE), Malden, MA (2) Clarkson University, Department of Civil and Environmental Engineering, Potsdam, NY (3) Harvard School of Public Health, Department of Environmental Health, Cambridge, MA (4) Clarkson University, Center for Air Resources and Engineering Science, Potsdam, NY (5) Clarkson University, Department of Biology, Potsdam, NY
| 8B.6
| Spatial and Temporal Near Roadside Measurements of Air Pollutants within an Adjacent Neighborhood of a Major International Trade Bridge in Buffalo, NY. Timothy R. McAuley, President and Founder, (1,2) John Spengler (2), (1) Consulting for Health, Air, Nature, & a Greener Environment (CHANGE), Malden, MA. (2) Department of Environmental Health, Exposure, Epidemiology and Risk Program, Harvard School of Public Health, Boston, MA.
| 8B.7
| Contributions to Secondary Organic Aerosol during 2009/2010 in Cleveland, Ohio. JOHN H OFFENBERG (1), Michael Lewandowski (1), Mohammed Jaoui (2), Terrance Gerald (2), Kenneth Docherty (2), Tadeusz E. Kleindienst (1) , (1) US EPA / NERL, RTP, NC. (2) Alion Science and Technology, RTP, NC.
| 8B.8
| A Study on the Chemical Composition of Rainwater in an Industrial City of India. L. SAHU (1), B.K. Padhi (2), P.K. Padhy (1) and R. N. Saha (3) , (1)Centre for Environmental Studies, Visva-Bharati University, Santiniketan, India (2) School of Environmental Sciences, Jawaharlal Nehru University, New Delhi, India (3)National Institute Of Technology Durgapur, India
| 8B.9
| Analysis of Atmospheric Aerosol (PM2,5) in Rio de Janeiro City. Thiago G. Veríssimo(1), Américo A. F. S. Kerr(1), Maria de Fatima Andrade(2), Regina Maura de Miranda(2), Adalgiza Fornaro(2), Paulo Afonso de Andre(3) e Paulo Saldiva(3), (1) Instituto de Física da Universidade de São Paulo (IF-USP) (2) Instituto de Astronomia, Geofísica e Ciências Atmosféricas da Universidade de São Paulo (IAG-USP) (3) Faculdade de Medicina da Universidade de São Paulo (FM-USP)
| 8B.10
| CMB Model Application in Urban and Rural Sites in South Florida. ORHAN SEVIMOGLU (1), (1) Florida International University, Miami
| 8B.11
| Impact of Distributed Urban Diesel Generators on Household Exposure to Carcinogenic Airborne Particles during Rolling Blackout Episodes. Marc Al Helou(1), Ezzat Jaroudi(1), ALAN SHIHADEH(1), (1) American University of Beirut
| 8B.12
| Spatial and Temporal Variability of the PM2.5 Metals Measured in the Detroit Airshed. CARVIN D. STEVENS1, Ron Williams1, Paul Jones1, Alan Vette1, Teri Conner1 and Robert Kellogg2 , 1U.S. Environmental Protection Agency, Research Triangle Park, NC, 27711, USA 2Alion Science and Technology, Research Triangle Park, NC, 27711, USA
| 8B.13
| Impact assessment of persistent particulate matter as pollutant through urban atmosphere at Mitrovica. AFRIM SYLA (1), Marta Korchemlyuk(2), (1) Unicersity of Prishtina, Prishtinë, (2)National University of Vasyl Stephanyk (Institute of nature sciences, chemist).
| 8B.14
| Spatial and Temporal Variability in the Particulate Matter Concentrations in Birmingham, Alabama. Jonathan Thornburg (1), SEUNG-HYUN CHO (1), Robert Vanderpool (2), Robert Murdoch (1), Russel Long (2), Bret Grover (2), Andrew Dart (1), Cortina Johnson (1) , (1) RTI International, (2) U.S. EPA ORD NERL
| 8B.15
| Morphology and Elemental Composition of Aerosol Particles in the Ceramic Tile Manufacture at Chihuahua City, Mexico. BALTER TRUJILLO-NAVARRETE (1), Francisco Paraguay-Delgado (2), Eduardo Herrera-Peraza (1), Ruben Mamani-Paco (3), Jorge Carrillo-Flores (1), Elias Ramirez-Espinoza (1), Alfredo Campos-Trujillo(1), Ramón Gomez (1), (1) Environment and Energy Department, Centro de Investigaciones en Materiales Avanzados, S.C. (2) Physic Department, Centro de Investigaciones en Materiales Avanzados, S.C. (3) Atmospheric Physics Laboratory, Universidad Mayor de San Andrés.
| 8B.16
| Development of a Windbreak Dust Control Models for Roadway Fugitive Dust Mitigation and Transport Flux. JOHN VERANTH (1), Sean Moran (2), Scott Speckart (2), Bhagirath Addepelli (2), J. Robert Stoll (2), Eric Pardyjak (2) , (1) University of Utah, Department of Pharmacology and Toxicology (2) University of Utah, Department of Mechanical Engineering
| 8B.17
| Tropical Aviational, Meteorological Variations of Temperature. Southern Nigeria: A Case Study. ONIFADE YEMI SIKIRU (1), (1) Crescent University, Abeokuta, Ogun State, Nigeria
| 8B.18
| Inter-community variability in total particle number concentrations in the eastern Los Angeles air basin. NEELAKSHI HUDDA (1), Kalam Cheung (1), Katharine Moore (1), Constantinos Sioutas (1), (1) University of Southern California, Los Angeles, CA
| 8B.19
| Particle Concentrations (PM10, PM2.5) in Subways, Light Rail Trains and Platforms in the Los Angeles Metro System. KALAM CHEUNG (1), Winnie Kam (1), Nancy Daher (1), Constantinos Sioutas (1) , (1) University of Southern California, Los Angeles
| 8B.20
| Predicting the Regional Air Quality Impacts of Diesel Fuel Additives Containing Nano-Scale Cerium Compounds. GARNET ERDAKOS (1), Prakash Bhave (1), Heather Simon (1), George Pouliot (1), (1) U.S. Environmental Protection Agency
| 8B.21
| Trace metal composition of ambient PM and it's spatiotemporal variation near a major highway in a Swiss Alpine valley. HARISH C. PHULERIA (1,2), Regina Ducret-Stich (1,2), Alex Ineichen (1,2), L.-J. Sally Liu (1,2,3), (1) Swiss Tropical and Public Health Institute, Basel, Switzerland (2) University of Basel, Basel, Switzerland (3) University of Washington, Seattle, Washington, USA
| 8B.22
| Nanoparticle Formation Events in Suburban Los Angeles, California during the CALNEX Study. M. ROSS PENNINGTON (1), Murray V. Johnston (1), (1) University of Delaware
|
8C CARBONACEOUS AEROSOLS IN THE ATMOSPHERE V
EXHIBIT HALL
8C.1
| Use of GCxGC-ToFMS and the third order advantage for compound-specific stable isotope analysis of Polycyclic Aromatic Hydrocarbons in particulate matter. CARLOS MANZANO (1), Wentai Luo (2), James Pankow (2), Robert Synovec (3), Staci Simonich (1) , (1) Oregon State University, Corvallis (2) Portland State University, Portland (3) University of Washington, Seattle
| 8C.2
| Reaction Products of Heterogeneous Ozonation and Nitration of Polycyclic Aromatic Hydrocarbons. HAEWOO JEONG, Shokouh H. Haddadi, Alexandra C. Smith, Rebeka F. Derseh, Nagaraju Dongari, Richard E. Cochran, Josef Beranek, Alena Kubatova , University of North Dakota, Grand Forks
| 8C.3
| Organic Functionalities in Aircraft and Laboratory Generated Soot Studied by micro-FTIR Spectroscopy. Jeremy P. Cain (1), Chester W. Spicer (3), Michael W. Holdren (3), Kenneth A. Cowen (3), Hai Wang (1), Alexander Laskin (2), (1) Department of Aerospace and Mechanical Engineering, University of Southern California (2) Battelle Science and Technology International (3) Environmental Molecular Science Laboratory, Pacific Northwest National Laboratory
| 8C.4
| Ergosterol, arabitol and manitol as tracers for biogenic aerosols. Noa Burstein (1), Naama Lang-Yona(1), Yinon Rudich (1), (1) Weizmann Institute, Rehovot, Israel
| 8C.5
| Investigations of Molecular Tracers from Naphthalene and Monomethylated Naphthalenes. TADEUSZ E. KLEINDIENST(1), Michael Lewandowski (1), John H. Offenberg (1), Mohammed Jaoui (2), Kenneth S. Docherty (2), (1) U.S. Environmental Protection Agency, National Exposure Research Laboratory (2) Alion Science and Technology, Inc.
| 8C.6
| Mixing of Atmospheric Organic Aerosol Components: Evidence from High-Resolution Aerosol Mass Spectrometry. LEA HILDEBRANDT (1), Kaytlin Henry (1), Jesse H. Kroll (2), Spyros N. Pandis (1,3), Neil M. Donahue (1), (1) Carnegie Mellon University, Pittsburgh, USA (2) Massachusetts Institute of Technology, Cambridge, USA (3) University of Patras, Patra, Greece
| 8C.7
| Spatial and Temporal Patterns in Urban and Rural Fine Particulate Organic and Elemental Carbon in the United States. BRET A. SCHICHTEL (1), Jenny L. Hand (2), Warren White (3), William C. Malm (2), Marc Pitchford (4), Neil Frank (5), Daniel Murphy (6), Judith Chow (7), (1) National Park Service, Air Resource Division, Fort Collins (2) CIRA, Colorado State University, Fort Collins (3) Crocker Nuclear Laboratory, University of California, Davis (4) NOAA, Desert Research Institute, Las Vegas (5) United States Environmental Protection Agency (6) NOAA, Bolder, CO (7) Desert Research Institute, Reno, NV
| 8C.8
| History of Black Carbon in California Atmosphere Derived from Relationship Between Black Carbon and Coefficient of Haze. THOMAS W. KIRCHSTETTER, Odelle Hadley, Lawrence Berkeley National Laboratory, Berkeley
| 8C.9
| Analysis of Semivolatile Organic Compounds in Urban Atmospheric Aerosols Using Thermal Desorption GC/MS and Comparison with Solvent Extraction GC/MS Method. VERA SAMBUROVA (1), Mark McDaniel (1), Dave Campbell (1), Anna Cunningham (1), Eric Fujita (1) and Barbara Zielinska (1), (1) Desert Research Institute, Reno, NV
| 8C.10
| Daytime vs. Nighttime NOx Effects on Aerosol Formation: Constraints from Ambient Measurements and Chamber Studies. JULIANE L. FRY (1), Joshua D. Katz (1), Rhiana D. Meade (1), (1) Reed College, Portland OR
| 8C.12
| Aerosol Mass Fractions from alpha-Pinene Oxidation via OH Radicals and Ozone. KAYTLIN M HENRY (1), Theresa Lohaus (1), Neil M Donahue (1), (1) Carnegie Mellon University, Pittsburgh
| 8C.13
| Evaluation of Fine and Coarse Carbonaceous Particles Using Scanning Electron Microscopy Techniques. GARY S. CASUCCIO (1), Traci L. Lersch (1), Eric S. Edgerton (2), Stephanie L. Shaw (3), Annette C. Rohr (3), (1) RJ Lee Group, Inc., (2) Atmospheric Research & Analysis, Inc., (3) Electric Power Research Institute
| 8C.14
| Organic Nitrogen in Fresh and Aged Aerosols Produced by Biomass Burning. Jeffrey L. Collett, Jr. (1), Yury Desyaterik (1), Amy Sullivan (1), Chris Hennigan (2), Allen L. Robinson (2), Amanda S. Holden (1), Sonia M. Kreidenweis (1), Bret Schichtel (3), (1) Colorado State University, Department of Atmospheric Science, Fort Collins (2) Center for Atmospheric Particle Studies,Carnegie Mellon University, Pittsburgh (3) National Park Service/CIRA, Colorado State University, Fort Collins
| 8C.15
| Quantifying Emissions of Low-Volatilty Organic Vapors and Particles Using Thermal Desorption Gas Chromatography-Mass Spectrometry. NGOC T. NGUYEN (1), Christopher J. Hennigan (1), Allen L. Robinson (1), (1) Carnegie Mellon University
| 8C.16
| Spatial and Temporal Patterns of the Carbonaceous Fraction of PM2.5 and PM10-2.5. Ricardo Piedrahita (1) , Nick Clements (1), Allison Moore (1), Paul Mountford (1), Kelly Albano (1), Jana Milford (1), Shelly Miller (1), Michael Hannigan (1), (1) University of Colorado at Boulder, Boulder, CO
| 8C.17
| PM Emissions from Laboratory Combustion of Biomass fuels. Seyedehsan Hosseini (1), Heejung Jung(1), Li Qi(1), David Weise (2), Wayne Miller(1), David Cocker(1), (1) University of California, Riverside, (2) Pacific Southwest Research Station , Forest Fire Laboratory
| 8C.18
| An In-Situ Instrument to Assess the Concentration and Phase Partitioning of Atmospheric Semi-Volatile Organic Compounds. YUNLIANG ZHAO (1), David R. Worton (1), Nathan M. Kreisberg (2), Gabriel Isaacman (1), Tadeusz Górecki (3), Allen H. Goldstein (1), Susanne V. Hering (2), (1) University of California, Berkeley, (2) Aerosol Dynamics Inc., (3) University of Waterloo
| 8C.19
| Characterization of PM from Animal Feeding Operations. STEVEN TRABUE (1), Kenwood Scoggin (1), Ronaldo Maghirang (2), Hongwei Xin (3), Hong Li (3), Laura McConnell (4), (1) USDA ARS-Ames, IA, (2) Kansas State University, (3) Iowa State University, (4) USDA ARS-Beltsville, MD
| 8C.20
| On-Road Spark Ignition and Compression Ignition Emission Factors for Vapor- and Particle-Phase Quinones. ARANTZA EIGUREN-FERNANDEZ (1), Emma di Stefano (1), Arthur Cho (1), John Froines (1) and Antonio H. Miguel (1*), (1) Southern California Particle Center, University of California Los Angeles, Los Angeles, CA (1*) Current address: Cal/EPA - ARB, El Monte
| 8C.21
| Secondary Organic Aerosol Yields from High-NOx Photo-oxidation of Cycloalkanes. DANIEL S. TKACIK (1), Albert A. Presto (1), Christopher J. Hennigan (1), Ngoc T. Nguyen (1), Allen L. Robinson (1), (1) Center for Atmospheric Particle Studies, Carnegie Mellon University, Pittsburgh, PA
| 8C.22
| Characterization of Submicron Aerosols at Cool (California) during the CARES Field Campaign with a High-Resolution Aerosol Mass Spectrometer. ARI SETYAN (1), Qi Zhang (1), Maik Merkel (2), Yele Sun (1), (1) University of California, Davis, (2) Leibniz Institute for Tropospheric Research, Leipzig
| 8C.24
| Long Term Profile of PM$_(2.5) at Egbert Ontario Monitored by the Canadian Air and Precipitation Monitoring Network (CAPMoN). KULBIR S. BANWAIT (1) , Nancy Lance (1), Renata Braga (1), Cheryl Sue (1), Trang Huynh (1), Hac Truong (1), (1) Environment Canada, Toronto
| 8C.25
| Water-Soluble Organic Compounds in Atmospheric Aerosols: Identification of Weak and Strong Organic Acids using CE-MS and FT-ICR-MS. EWA DABEK-ZLOTORZYNSKA (1), Mahmoud M. Yassine (1), Philippe Schmitt-Kopplin (2), Mourad Harir (2), (1) Environment Canada, Ottawa, (2) Helmholtz-Zentrum Muenchen-German Research Center for Environmental Health, Neuherberg
|
8D AEROSOL CHEMISTRY VI
EXHIBIT HALL
8D.1
| Chemical Kinetics of Core-Shell Nanoparticle Formation via Photoinduced Chemical Vapor Deposition. ADAM BOIES (1) and Steven Girshick (1), (1) University of Minnesota, Twin Cities
| 8D.2
| Size Resolved Atmospheric Aerosol Composition by Raman Microspectroscopy. Sarah D. Brooks, Peter Deng, Lijun Zhou, and Naruki Hiranuma, Texas A&M University
| 8D.3
| Atmospheric Reactivity and Aerosol Forming Potentials of Three Amines. Xiaochen Tang (1, 2), Shunsuke Nakao (1,2), Ping Tang (1, 2), Li Qi (1, 2), David Cocker III (1, 2), 1) University of California, Riverside, Department of Chemical and Environmental Engineering 2) College of Engineering – Center for Environmental Research and Technology (CE-CERT)
| 8D.4
| Secondary Organic Aerosol Formation from the Trimethylbenzene (TMB) Isomers. Ping Tang (1), Li Qi (1), Shunsuke Nakao (1), Xiaochen Tang (1), David R. Cocker III (1), (1) Department of Chemical and Environmental Engineering, Bourns College of Engineering, Center for Environmental Research and Technology (CE-CERT), University of California, Riverside
| 8D.5
| Exploring the Heterogeneous Ozonolysis Reactions of Secondary Organic Aerosols using AFT-FTIR. CINDY DEFOREST HAUSER (1), Justin Godinho (1), (1) Davidson College
| 8D.6
| Selective Scavenger Studies of Stabilized Criegee Intermediate Formation. GREG T. DROZD (1), Neil M. Donahue (1), (1) Carnegie Mellon University
| 8D.7
| Trends in the OH Oxidation Lifetime of Organic Compounds Using the 2-D Volatility Basis Set Framework. SCOTT A. EPSTEIN (1), Neil M. Donahue (1), (1) Carnegie Mellon University, Center for Atmospheric Particle Studies
| 8D.8
| Effects of Water Vapor and OH-scavenging on Nano-particle Formation from Ozone and Limonene Reaction. CHI PHUONG HOANG (1), Donghuyn Rim (1), Lance Wallace(1), Andrew Persily (1), (1) National Institute of Standards and Technology
| 8D.9
| Chamber Study of Dimethyl Sulfide’s Impact on the Secondary Organic Aerosol Formation of Isoprene. Tianyi Chen, Myoseon Jang, University of Florida, Gainesville, Florida
| 8D.10
| Photooxidation of 2-methyl-2-butene in the presence of Saline-Oxone aerosol. YUNSEOK IM (1), Myoseon Jang(1) Michael V. Henley(2), John D. Hearn(3), Carrie A. Delcomyn(4), (1) Department of Environmental Engineering Sciences, University of Florida, Gainesville (2) Air Force Research Laboratory, Airbase Technologies Division, Tyndall AFB (3) Applied Research Associates, Inc. Tyndall AFB (4) Littoral Warfare Science and Technology Transitions and Programs Office, Naval Surface Warfare Center, Panama City
| 8D.11
| Titration of Internally Mixed SOA-Sulfuric Acid Aerosol with Ammonia. Myoseon Jang (1), Jiaying Li (1), Ori Baber (1) , (1) University of Florida, Gainesville, Florida
| 8D.12
| The Critical Conditions and Induction Period of Surface Combustion of Gases on Catalyst Particals. VALERIY KALINCHAK (1), Alexander Safronkov (2) , Alexander Chernenko (1), Boris Rachinsky (1), (1) Mechnikov Odessa National University, Ukraine, (2) University Opole, Poland
| 8D.13
| Formation of PAH-Quinones During the Gas Phase Reaction of PAHs with the OH Radical. JI YI LEE (1), Yu Cheng (2), Douglas A. Lane (2), Yong Pyo Kim (1), (1) Department of Environment Science and Engineering, Ewha Womans University (2) Air quality research division, Science and Technology Branch, Environment Canada
| 8D.14
| Aging of Secondary Organic Aerosol in Laboratory Chambers. CHRISTINE L. LOZA (1), Puneet S. Chhabra (1), Lindsay D. Yee (1), Man Nin Chan (1), Arthur W.H. Chan (1), Paul O. Wennberg (1), Richard C. Flagan (1), John H. Seinfeld (1), (1) California Institute of Technology, Pasadena
| 8D.15
| Characterization of the Improved Experimental Setup for Multicomponent Aerosol Nucleation. ANDREY MARKOVICH (1), David Benson (1), Shan-Hu Lee (1), (1) Kent State University
| 8D.16
| Microchip Electrophoresis Coupled to a Miniature Cloud Condensation Nuclei Collector for Online Monitoring of CCN Chemistry. SCOTT D. NOBLITT (1,2), Jeffrey L. Collett, Jr. (1), Charles S. Henry (1), Gregory C. Roberts (2), (1) Colorado State University, Fort Collins, (2) Scripps Institute of Oceanography, La Jolla
| 8D.17
| Chemical Speciation of Ultrafine, Fine and Coarse Particulate Matters: Relationship with the Capacity to Generate Reactive Oxygen Species (ROS) and, Cytotoxic and Pro-inflammatory Cellular Response. NEERAJ RASTOGI (1), Umme Akhtar (1, 2), Rob McWhinney (3), Mike Fila (4), Bruce Urch (4), Greg Evans (1), Jeremy Scott (2), Jonathan Abbatt (3), (1) Southern Ontario Centre for Atmospheric Aerosol Research, University of Toronto (2) Department of Medicine, University of Toronto (3) Department of Chemistry, University of Toronto (4) Gage Occupational and Environmental Health Unit, University of Toronto
| 8D.18
| Does oxidative aging of organic aerosol influence the particle optical properties?. LINDSAY RENBAUM (1), Geoffrey D. Smith (1) , (1) University of Georgia
| 8D.19
| SOA Formation from Phenolic Compounds. Shunsuke Nakao, Christopher Clark, Ping Tang, David R. Cocker III, University of California-Riverside, Bourns College of Engineering – Center for Environmental Research and Technology (CE-CERT), Department of Chemical and Environmental Engineering
| 8D.20
| Determination of Manganese Composition in Welding Fume by Primary Particle Size Utilizing Microscopy. JULIE D. RICHMAN (1), Kenneth J.T. Livi (2), Alison S. Geyh (1), (1) Johns Hopkins Bloomberg School of Public Health, Department of Environmental Health Sciences (2) Johns Hopkins University, Integrated Imaging Center HRAEM Facility, Department of Earth and Planetary Sciences and Biology
| 8D.21
| Oxidative Aging of Secondary Organic Aerosol Material Formed by Glyoxal and Methylglyoxal. NEHA SAREEN (1), Allison Schwier (1), V. Faye McNeill (1), (1) Columbia University, New York
| 8D.22
| Secondary organic aerosol formation from the photooxidation of conjugated dienes under high NOx conditions. KEI SATO (1,2), SHUNSUKE NAKAO (2), CHRISTOPHER CLARK (2), LI QI (2), PING TANG (2), DAVID COCKER (2), (1) National Instutute for Environmental Studies, (2) University of California, Riverside
| 8D.23
| Simplified Measurement of Thermodynamic Properties of Semi-Volatile Organic Acid Aerosols by a Tandem Piezobalance – Integrated Volume Method. Sarah Safieddine (1), Rawad Saleh (2), Andrey Khlystov (2), ALAN SHIHADEH (1), (1) American University of Beirut (2) Duke University
| 8D.24
| Measurements of Optical Properties of Secondary Organic Aerosol Using Photoacoustic Instrumentation. Chen Song (1), Madhu Gyawali (2), Rahul A. Zaveri (1), John Shilling (1), and W. Patrick Arnott (2) , (1) Pacific Northwest National Laboratory, Richland, WA (2) University of Nevada, Reno, NV
| 8D.25
| Secondary Organic Aerosol Formation from the Reaction of OH Radicals with Aromatics and their Primary Oxidation Products. CHRISTEN STROLLO (1), Paul Ziemann (1), (1) University of California, Riverside
| 8D.26
| Yields of Gas and Aerosol Products Formed from the Reactions of Alkenes with Nitrate Radicals. GEOFFREY YEH (1), Paul Ziemann (1), (1) Air Pollution Research Center, University of California Riverside
| 8D.27
| Development and Application of Functional Group Analysis for Secondary Organic Aerosol. SUKON AIMANANT (1), Paul Ziemann (1), (1) Air Pollution Research Center, University of California, Riverside
| 8D.28
| Intercomparison of Two Aerosol Flow Tube Reactors: Reactor Characterization and Oxygenated Organic Aerosol Formation. ANDREW LAMBE (1,2), Adam Ahern (1,2), Jay Slowik (3), Jenny Wong (3), Jon Abbatt (3), William Brune (4), Leah Williams (2), Timothy Onasch (2), David Croasdale (1), Justin Wright (1), Douglas Worsnop (2), Charles Kolb (2), Paul Davidovits (1), (1) Boston College, Chestnut Hill, MA (2) Aerodyne Research Inc., Billerica, MA (3) University of Toronto, Toronto, ON (4) Pennsylvania State University, State College, PA
| 8D.29
| Molecular Composition of Isoprene Photooxidation Products Characterized by High Resolution Mass Spectrometry. TRAN B. NGUYEN (1), Sergey A. Nizkorodov (1), Julia Laskin (2), Alexander Laskin (2), (1) University of California, Irvine (2)Pacific Northwest National Laboratory, Richland
| 8D.30
| Size-dependent Growth Rates of Sub-5nm Particles during Atmospheric Nucleation Events. MODI CHEN (1), Peter McMurry (1), Jingkun Jiang (1), Jun Zhao (2), (1) Department of Mechanical Engineering, University of Minnesota, Minneapolis (2) Atmospheric Chemistry Division, National Center for Atmospheric Research, Boulder
|
8E INSTRUMENTATION AND METHODS V
EXHIBIT HALL
8E.1
| Integration of a Hydrosol Concentrator with an Aerosol to Hydrosol Sampler for Fluid Reuse and Improved Concentration Factors. DAVID ALBURTY (1), Pamela Murowchick (1), Zachary Packingham (2), Andrew Page (2), Tyler Davis (2), Darren Wheeldon II (1)., (1) AlburtyLab, Inc., Drexel, Missouri, (2) InnovaPrep LLC, Drexel, Missouri
| 8E.2
| Computational Fluid Dynamics Simulation of Aerosol Deposition by Interception. YINGJIE TANG (1), Bing Guo (1), (1) Texas A&M University, College Station
| 8E.3
| Development of an Apparatus That Can Simultaneously Analyze the Concentration and Composition of Aerosols. YUSUKE MIZUNO (1), Masahiko Fujiwara (1), Hiroshi Kume (2), (1) Horiba Ltd., Kyoto, (2) National Institute for Environmental Studies, Tsukuba
| 8E.4
| Field Evaluation of a DustTrak DRX Photometer under Various Indoor and Outdoor Settings. MARTIN BRANIS, Carles University in Prague, Faculty of Science, Institute for Environmental Studies
| 8E.5
| Effect of Relative Humidity on the Size Distribution of Polystyrene Latex Spheres. JAMES E. FARNSWORTH (1) and Jason P. Johnson (1), (1) TSI Incorporated, Shoreview, MN
| 8E.6
| Three Things about a CVI. MIKHAIL S. PEKOUR, Gourihar R. Kulkarni, and Daniel J. Cziczo, Pacific Northwest National Laboratory
| 8E.7
| Portable Differential Mobility Analyzing System (DMAS) for Aerosol Monitoring. AJAYA GHIMIRE (1), Jerry Gromala (1), Brian Steer (2), Boris Gorbunov (2), Robert Muir (2), (1) Particle Measuring Systems, Boulder (2) Naneum Ltd., Canterbury Kent, England
| 8E.8
| Measurement of Soot with Organic Coatings by Laser-Induced Incandescence. HUGO A.R. TJONG (1), Steven Rogak (1), (1) The University of British Columbia
| 8E.9
| 450 nm Cut-Off Pre-Separator with Low Pressure Drop for Diffusion Charger Based Nanoparticle Measurement. CHRISTOF ASBACH (1), Heinz Fissan (1), Burkhard Stahlmecke (1), Heinz Kaminski (1), David Y.H. Pui (2), Thomas A.J. Kuhlbusch (1) , (1) Institute of Energy and Environmental Technology (IUTA) e.V., Duisburg, Germany (2) University of Minnesota, Minneapolis, MN
| 8E.10
| A Novel Test Device for Studying Droplet Aerosols. MICHAEL MCDONALD (1), Brian Heimbuch (1) Joe Wander (2), (1) Applied Research Associates (2) Air Force Research Laboratory
| 8E.11
| Characterization of Unregulated Emissions from Comparable Light-Duty Hybrid and Conventional Vehicles during Real-World Driving with TOTEMS. KAREN M. SENTOFF (1), Mitchell K. Robinson (1), Britt A. Holmén (1), (1) University of Vermont
| 8E.12
| Development and Characterization of the NanoAPA, a Portable Instrument for Real-Time Measurement of the Size and Number of Airborne Nanoparticles. TERENCE BARRETT (1), Britt Holmén (1), (1) University of Vermont
| 8E.13
| Comparative study of the effect of the trapping method on the physical properties of single aerosols trapped with an electrodynamic balance or optical tweezers. Allen Haddrell (1), Jonathan Reid (1), (1) University of Bristol, Bristol, UK
| 8E.14
| Development of a mini- aerosol Faraday cage for personal nanoparticle monitor. Li Huang (1), Da-ren Chen (1), (1) Washington University in St. Louis
| 8E.16
| A Sensitive Tailored Electrode Concentration Sensor (TECS) for Total Number Concentration Measurements. ISHARA R.J HUNGAMA MUDALIGE(1), Suresh Dhaniyala(1), (1)Clarkson University,Potsdam
| 8E.17
| Evaluation of a High Resolution Optical Particle Spectrometer. HEE-SIEW HAN (1), Avula Sreenath (1), Nathan T. Birkeland (1), George J. Chancellor (1), (1) TSI Incorporated, Shoreview
| 8E.18
| Adaptation of an Ambient Ion Monitor for Detection of Organic Ions in Particulate Matter from Agricultural Emissions. PHIL SILVA (1), (1) USDA-ARS, Bowling Green, KY
| 8E.19
| Bio-aerosol Sampler/Collector: Numerical and Experimental Study. Igor Novosselov (1), Michelle Hickner (1), Evan Dengler (1), Scott Meschke (2), Michael Yost (2), Peter Ariessohn (1), (1) Enertechnix Inc, Seattle (2) University of Washington
| 8E.20
| High Volume Aerosol Collection into Small Liquid Volumes. STEVEN SPIELMAN (1), Gregory Lewis (1) and Susanne Hering (1), (1) Aerosol Dynamics Inc.
| 8E.21
| Real-Time Quartz Crystal Microbalance Detection of Aerosols Emitted from a Re-entrant Aerodynamic Focusing Inlet. CHRISTINA Y. HAMPTON (1), Raymond G. Sierra (1), Matthias Frank (2), Michael J. Bogan (1,*), (1) SLAC National Accelerator Laboratory, Menlo Park, CA, USA (2) Lawrence Livermore National Laboratory, Livermore, CA, USA
| 8E.22
| Design, Development and Characterization of a Novel Dry-Collection/Wet-Elution System for Bioaerosols. ANDREW PAGE (1), Zachary Packingham (1), Alec Adolphson (2), Pamela Murowchick (2), David Alburty (2), (1) InnovaPrep LLC, Drexel, Missouri, (2) AlburtyLab, Inc., Drexel, Missouri
| 8E.23
| Extending the Capabilities of Single Particle Mass Spectrometers: A New Parallel Dual Data Acquisition Mode. ALLA ZELENYUK (1), Tim Vaden (1), Dan Imre (2), (1) Pacific Northwest National Laboratory, (2) Imre Consulting
| 8E.24
| The Sky-CPC, a new condensation particle counter for airborne measurements in commercial and research aircrafts. GIL COSSETTE (1), Juergen Spielvogel (1), Lothar Keck (1) ,Friedhelm Schneider (1), Matthias Richter (1), (1) GRIMM Aerosol Technik GmbH & Co. KG, Ainring, Germany
| 8E.25
| Investigation on the Cause for Underestimation of Density Measured by the DMA-APM Method. HIROMU SAKURAI (1), Kensei Ehara (1), Naoko Tajima (2), Nobuhiko Fukushima (2), (1) National Institute of Advanced Industrial Science and Technology (AIST), (2) Kanomax Japan Inc.
| 8E.26
| Evaluating soot emission in flares from plume transmissivity measurements– Correction of errors caused by sun-light scattering. ROBIN W. DEVILLERS (1),*, Kevin A. Thomson (1), Matthew R. Johnson (2), (1) National Research Council, ICPET, Canada; (2) Carleton University, Mechanical & Aerospace Engineering, Canada
| 8E.27
| Near-Infrared Laser Desorption/Ionization Aerosol Mass Spectrometry (NIR-LDI-AMS): Advancing Measurements of Organic Aerosols Under Atmospherically Relevant Concentrations of Organic Aerosol. SCOTT GEDDES (1), Brian Nichols (2), Jessica Eisenhauer (3), James Zahardis (4), Giuseppe A. Petrucci (5), (1) University of Vermont
| 8E.28
| Aerosol Deposition by Diffusion in Microchannels. Farzan Tavakoli (1), Sushanta Mitra (1), JASON OLFERT (1), (1) Department of Mechanical Engineering, University of Alberta.
| 8E.29
| Matrix Effects in Laser-induced Breakdown Spectroscopy. PRASOON DIWAKAR, Pramod Kulkarni, Eileen Birch, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health, Cincinnati OH, USA
| 8E.30
| Extending Water-based Condensation Particle Counters to Smaller Particle Sizes. SUSANNE HERING and Gregory Lewis, Aerosol Dynamics Inc., Berkeley
| 8E.31
| Development of a Personal Sampler for Simultaneous Sampling of Gases and Aerosols. LIN SHOU (1), Danielle Hall (1), Yu-Mei Hsu (2), Alex Theodore (1), Chang-Yu Wu (1), Brian Birky (3), (1) University of Florida (2) Wood Buffalo Environment Association, Canada (3) Florida Industrial and Phosphate Research Institute, University of South Florida Polytechnic
|
8F HEALTH RELATED AEROSOLS III
EXHIBIT HALL
8F.1
| Effectiveness of delivering moisture to patients’ upper airways via the Wright Mask System. TSZ YAN LING (1), David Y. H. Pui (1) Joshua Oye (2) , Julie Toscano (2), (1) Particle Technology Laboratory, Department of Mechanical Engineering, University of Minnesota (2) Respiratory Care program, Saint Paul College
| 8F.2
| Dosimetry of Inhaled Droplets in the Human Lower Respiratory Tract. Bahman Asgharian (1), Owen Price (1), Jeffry Schroeter (2), Julia Kimbell (3), Madhuri Singal (4), Leah Jones (4), (1) Applied Rsearch Associates, (2) The Hamner Institutes for Health Sciences (3) University of North Carolina at Chapel Hill (4) Research Institute for Fragrance Materials
| 8F.3
| Optimization of Bioaerosol Collection in a Stainless Steel Impinger. J.K. Bohannon (1), J.E. Trombley (1), J.A. Boydston (1), Z.N. Llewellyn (1), and L.E. Bowen (1), (1) Southern Research Institute
| 8F.4
| Effects of Surface Geometry on CFD Predictions of Particle Deposition in Human Nasal Models. JEFFRY SCHROETER (1), Guilherme Garcia (2), Julia Kimbell (3), (1) The Hamner Institutes for Health Sciences, Research Triangle Park, (2) Department of Pharmacology, University of North Carolina-Chapel Hill, (3) Department of Otolaryngology/HNS, University of North Carolina-Chapel Hill
| 8F.5
| Numerical study of ellipsoid (fibrous particle) deposition in a realistic human nasal cavity. ALIREZA DASTAN (1), OMID ABOUALI (1, 2), GOODARZ AHMADI (2), (1) School of Mechanical Engineering, Shiraz University, Shiraz, Iran (2)Mechanical and Aeronautical Engineering Department, Clarkson University, Potsdam, NY, USA
| 8F.6
| Characterization of particle-bound reactive oxygen species in tobacco smoke. JIAYUAN ZHAO (1), Philip K. Hopke (1), Gunter Oberdorster (2), Bob Gelein (2), Pamela Wade-Mercer (2), Irfan Rahman (2), (1) Center for Air Resources Engineering and Science, Clarkson University, Potsdam, NY 13676, USA (2) Department of Environmental Medicine, University of Rochester, Rochester, NY 14642, USA
| 8F.7
| Size-Resolved Measurements of Polydispersed Hygroscopic Ultrafine Particle Deposition in the Respiratory Tract of Children. OLVERA, HECTOR A.(1), Perez, Daniel.(2), Clague, Juan W.(3), Li, Wen-Whai.(4), Cheng, Yung-Sung.(5), Pingitore, Nicholas.(6) , (1, 2, 3, 4, 6) University of Texas at El Paso, (5) Lovelace Respiratory Research Institute
| 8F.8
| Measurements and Simulation of Aerosol Deposition as a Function of Reynolds Number in a Ninety-Degree Pipe Bend. Scott R. Wilson(1), YUAN LIU(1), Edgar A. Matida(1), Matthew R. Johnson(1) , (1) Carleton University
| 8F.9
| Exposure Assessment of Aerosols Emitted by Nanotechnology Consumer Products. MARINA QUADROS (1), Linsey Marr (1), (1) Virginia Tech, Blacksburg
| 8F.10
| Cytotoxicity and Immune Effects of Metal Oxide Nanoparticles. Zhicheng Wei (1) and LUPITA D. MONTOYA (2), (1) Rensselaer Polytechnic Institute (2) University of Colorado at Boulder
| 8F.11
| Unraveling the Oxidative Potential of Particles: Comparison of DTT Consumption with Quantitative Measurements of Hydrogen Peroxide and Hydroxyl Radical. JESSICA G. CHARRIER (1), Cort Anastasio (1), (1) University of California, Davis
| 8F.12
| Combination chemoprevention for lung carcinogenesis in A/J mice by aerosolized drugs. Jingjie Zhang(1), Huijing Fu (1), Daren Chen(1), (1) Washington University in St. Louis
| 8F.13
| Assessment of Carbon Nanotube Exposure in the Production of Nanocomposites. DREW THOMPSON (1), Jing Wang (1), Jacob Swanson (1), David Pui (1), (1) University of Minnesota
| 8F.14
| Live-Animal Infectivity Study of a Viable Pathogen Penetrating through a Reactive Filter Medium. RASHELLE S. McDONALD1, Brian K. Heimbuch1, Brenton R. Stone1,2, Michael B. Lore3, Steven H. Hinrichs3, Anthony R. Sambol3, and Joseph D. Wander4 1 Applied Research Associates, Tyndall AFB, FL. 2 Dept. of Environmental Engineering Sciences, U of Florida, Gainesville, FL.,3 Department of Pathology and Microbiology, UNMC 4Airbase Sciences Branch, Air Force Research Laboratory, Tyndall AFB, FL , 1 Applied Research Associates, Tyndall AFB, FL. 2 Dept. of Environmental Engineering Sciences, U of Florida, Gainesville, FL.,3 Department of Pathology and Microbiology, UNMC 4Airbase Sciences Branch, Air Force Research Laboratory, Tyndall AFB, FL
| 8F.15
| Nano-Aerosol Generation for Inhalation Toxicology Study. VLADIMIR MIKHEEV (1), William Forsythe (1), Benjamen Swita (1) , (1) Battelle Toxicology Northwest, Richland, WA
| 8F.16
| Exposure to Emissions from Firewood Cooking Stoves and the Pulmonary Health of Women in Olorunda Community, Ibadan, Nigeria. Godson Ana(1), Bamidele Adeniji(1),Olusoji Ige(2) Olusola Olapade(3), (1) University of Ibadan,Ibadan,Nigeria (2) University college Hospital, Ibadan, Nigeria (3)University of Chicago, Illinois,USA
|
8G NANOPARTICLES AND MATERIALS SYNTHESIS II
EXHIBIT HALL
8G.1
| Synthesis of Pt/TiO2 nanocomposite via Aerosol Self Assembly and its Catalytic Application. Hee Dong Jang(1), Hankwon Chang(1), Kuk Cho(1), Sun Kyung Kim(1), Franklin Kim(2), Kwonanm Sohn(2), Jiaxing Huang(2), (1) Korea Institute of Geoscience and Mineral Resources, Korea (2) Northwestern University, Evanston
| 8G.2
| Gas Phase Production of Magnetic Iron Oxide Nanoparticles for Cancer Treatment. PINGYAN LEI (1), Adam M.Boies (1), Steven L.Girshick (2), (1) University of Minnesota
| 8G.3
| Porous Hyaluronic Acid Particles Prepared Using an Aerosol-assisted Self-assembly Technique. ASEP BAYU DANI NANDIYANTO (1), Sin Young Lee (1), Ferry Iskandar (1), Kikuo Okuyama (1), (1) Hiroshima University
| 8G.4
| Synthesis of Hollow Black Carbon Nanoparticles by Controlled Oxidation. XIAOFEI MA (1), Joseph M. Conny (2), George W. Mulholland (1), Michael R. Zachariah (1), (1) University of Maryland-College Park, (2) National Institute of Standards and Technology, Gaithersburg
| 8G.5
| Explosive Synthesis of Silica Aerosol Gels from Liquid Precursors. JESSICA CHANGSTROM (1), Christopher Sorensen (1), (1) Kansas State University
| 8G.6
| Thermal Plasma Synthesis of Cerium-Doped YAG Nanoparticles for Phosphor Applications. RICKY JAIN (1), Steven L. Girshick (1), J.V.R. Heberlein (1) , (1) University of Minnesota
| 8G.7
| Enhancement of surface-active species in nanoparticles produced by an electrospray aerosol generator. Amanda C. MacMillan (1), John B. Morrison (1), Christopher W. Harmon (1), Sergey A. Nizkorodov (1), (1) University of California, Irvine
| 8G.8
| Non-toxic Nanosilver for Plasmonic Biosensors. Georgios A. Sotiriou (1), Takumi Sannomiya (2), Alexandra Teleki (1), Janos Voeroes (2), SOTIRIS E. PRATSINIS (1), (1) Particle Technology Laboratory, ETH Zurich (2) Laboratory for Biosensors and Bioelectronics, ETH Zurich
| 8G.9
| Design of Aerosol Coating Reactors. BEAT BUESSER (1), SOTIRIS E. PRATSINIS (1), (1) ETH Zurich
| 8G.10
| Formation of Alkyl Monolayers on Silicon Nanoparticles by Hydrosilylation: Dependence of Nanoparticle Size on Attachment Chemistry. STEVEN A. CALDER (1), Jeffrey T. Roberts (2), Steven L. Girshick (1), (1) University of Minnesota, (2) Purdue University
| 8G.11
| Characterization of Doped TiO2 Nanoparticle Dispersion: The Effect of Dopants. MANORANJAN SAHU, Komkrit Suttiponparnit, Sirikalaya Suvachittanont, Tawatchai Charinpanitkul, and Pratim Biswas, Washington University in St. Louis
| 8G.12
| Aggregate Growth by Multiparticle Sintering. MAX L. EGGERSDORFER (1) Sotiris E. Pratsinis (1), (1) ETH Zurich, Switzerland
| 8G.13
| Aerosol Processing of Visible Light Induced Photocatalysts for CO2 Reduction under LED Illumination. WEI-NING WANG, Zimeng Wang, and Pratim Biswas, Washington University in St. Louis
| 8G.14
| Magnetic Nanoparticles: Biologically and Environmentally Suitable for In Vitro Air Pollution Exposure Studies. ORI BABER (1) Myoseon Jang (1) David Barber (1) Andrew Ghio (2), (1) Department of Environmental Engineering Sciences, University of Florida (2) EPA, Research Triangle Park, North Carolina
| 8G.15
| Metal Nanoparticle Nucleation: The Effects of Surface Tension and Fluid Turbulence. Jun Liu (1), Sean Garrick (1), (1) University of Minnesota, Minneapolis
| 8G.16
| Portable gas sensor for breath analysis. Marco Righettoni, Antonio Tricoli, SAMUEL GASS, Sotiris E. Pratsinis, ETH Zurich
| 8G.17
| Particle Dynamics in Mixing-limited Combustion Aerosol Reactors. ARTO GRÖHN (1), Karsten Wegner (1), Sotiris Pratsinis (1), (1) ETH Zürich
| 8G.18
| Characterization of In-Situ Charge Distribution of TiO2 and Cu-Doped TiO2 Nanoparticles in a Flame Aerosol Reactor. Jinho Park (1), Manoranjan Sahu (1) and Pratim Biswas (1), (1) Washington University in St. Louis
| 8G.19
| Nanoparticle Release Test of Composite Surface Coatings Relating to Sanding. Michael Stintz, Daniel Göhler, Institute of Process Engineering and Environmental Technology, University of Technology Dresden, Dresden, Germany
|
8H INDOOR AEROSOLS/EXPOSURE III
EXHIBIT HALL
8H.1
| Fine Particulate Phase PAHs in Urban Air and Exposure Assessment in Human Using Potential Urinary Biomarkers. R Mohanraj (1), G. Solaraj (1) and S. Dhanakumar (1), (1) Department of Environmental Management, Bharathidasan University, Tiruchirappalli – 620024, INDIA
| 8H.2
| A Validated Approach for Assessing Exposure to Asbestos in Soil. JONATHAN THORNBURG (1), (1) RTI International
| 8H.3
| Standard Method for Aerosol Deposition of Bacillus Spores onto Surfaces. KIMBERLY KINNEY (1), Kristin DeNesnera (1), Michael McDonald (1), Robert Stote (2), William Wallace (1), Brian Heimbuch (1), Heidi Schreuder-Gibson (2), Jeffery Owens (3), Joseph Wander (3) , (1) Applied Research Associates, Inc., (2) US Army Natick Soldier Research, Development, and Engineering Center, (3) Air Force Research Laboratory, Tyndall AFB
| 8H.4
| Droplet Evaporation, Transport, and Distribution in a Mixer/Diffuser System. OWEN PRICE (1), Bahman Asgharian (1), Jay Eversole (2), (1) Applied Research Associates, Inc., (2) United States Naval Research Laboratory
| 8H.5
| Exposure to Different Commercial Oils. Mehdi Amouei Torkmahalleh (1), Iman Goldasteh (1), Yijia Zhao (1), Alan Rossner (1), Philip K. Hopke (1), Andrea R. Ferro (1), (1) Center for Air Resources Engineering and Science, Clarkson University
| 8H.6
| Impact of Secondhand Tobacco Smoke on in-cabin Passengers’ Exposure to Ultrafine Particles in an Automobile. Shusen Liu (1) (2), YIFANG ZHU (1), (1) Texas A&M University-Kingsville, TX (2) Tianjin Polytechnic University,China
| 8H.7
| Physico-chemical characterization of metallic nanoparticles derived in welding fumes. Cali Chang, Philip Demokritou, David C. Christiani , Department of Environmental Health, School of Public Health, Harvard University
| 8H.8
| Collection and Regeneration of Biodiesel Exhaust Particles for Off-Line Inhalation Toxicology Studies. VAISHALI SHARMA (1), Naomi K Fukagawa (2), Britt Holmén (1), (1) School of Engineering, (2) College of Medicine, University of Vermont
| 8H.10
| Short-term Exposure of Aerosolized Bacillus Endospores to Combustion of Energetic Materials. SeERGEY A GRINSHPUN (1), Atin Adhikari (1), Michael Yermakov (1), Lauri Reponen (1), Tiina Reponen (1), Edward Dreizin (2), Mirko Schoenitz (2), Shasha Zhang (2), Vern Hoffmann (3), (1) Center for Health-Related Aerosol Studies, University of Cincinnati, Cincinnati, Ohio, (2) O.H. York Department of Chemical, Biological, and Pharmaceutical Engineering, New Jersey Institute of Technology, Newark, New Jersey, (3) Reactive Metals Inc., Newark, New Jersey
| 8H.11
| Exposure to Human Health-relevant Contaminants in Diesel Trucking Terminals: Quantification and Apportionment of EC and PAHs. REBECCA J. SHEESLEY (1), Eric Garshick (2,3), Jaime E. Hart (2), Francine Laden (3,4), Thomas J. Smith (4), (1) Baylor University, Waco, TX, USA (2) Pulmonary and Critical Care Medicine Section, Medical Service, VA Boston Healthcare System (3) Channing Laboratory, Department of Medicine, Brigham and Women’s Hospital, Harvard Medical School, Boston, MA (4) Exposure, Epidemiology and Risk Program, Department of Environmental Health, Harvard School of Public Health, Boston, MA
| 8H.12
| Experimental Study of the Effect of Environmental Conditions on Particle Suspension and Deposition. ASMAA KASSAB (1), Victor Ugaz (1) and Yassin Hassan (1), (1) Texas A&M University, College Station.
| 8H.13
| Indoor Air Quality in University. Pei-Shih Chen (1), CHIA-YU CHEN (1), (1) Kaohsiung Medical University
| 8H.14
| Ultrafine particles counts in elementary school. Pei-Shih Chen (1), Jung-Ying Chen (1), Shiao-Ting Lin (1), CHIA YU CHEN (1), (1) Kaohsiung Medical University, Taiwan
| 8H.15
| Characterization of the bacterial and fungal bioaerosols. Pei-Shih Chen(1), Chih-Sean Ou(1), YU-TING CHENG (1), (1) Kaohsiung medical university
|
8I AEROSOL PHYSICS IV
EXHIBIT HALL
8I.1
| Below-Cloud Scavenging of Aerosol Particles by Snow at an Urban Site in Finland. MIKHAIL PARAMONOV (1), Aki Virkkula (1), Tiia Grönholm (1), Sabine Göke (1), Lauri Laakso (1,2), (1) University of Helsinki, Helsinki, Finland (2) North-West University, Republic of South Africa
| 8I.2
| Numerical Simulation of Aerosol Particle Deposition in an Impinging Jet. Eid Alatawi (1), Edgar Matida (2), (1) Carleton University, (2) Carleton University
| 8I.3
| Numerical Simulation of Brownian Collision and Coagulation of Nanoparticles in a Tank. Behtash Tavakoli, GOODARZ AHMADI, Department of Mechanical and Aeronautical Engineering, Clarkson University, Potsdam, NY 13699, USA
| 8I.4
| Prediction and Validation of Diluting Exhaust Plumes from a Pickup Truck and a Heavy-Duty Tractor. BO YANG (1,2), Yan Wang (2), Ke Max Zhang (2), Victor Wei-Chung Chang (3), Lynn M. Hildemann (4), (1) College of Automotive Engineering, Jilin University, Changchun, China, (2) Mechanical and Aerospace Engineering, Cornell University, Ithaca, NY, USA, (3) School of Civil and Environmental Engineering, Nanyang Technological University, Singapore, (4) Department of Civil and Environmental Engineering, Stanford University, Stanford, CA, USA
| 8I.5
| PM10/PM2.5 andTransport Velocity of Persistent Inorganic Pollutants Through Atmosphere. SYLA AFRIM (1), (1) University of Prishtina,Faculty of Technical Sciences, Republic of Kosovo, 40000 Mitrovica
| 8I.6
| Comparison of Nucleation and Growth at paired Rural and Urban site. Yun-seok jun (1), Cheol-Heon Jeong (1), Greg J. Evans (1), W. Richard Leaitch (2), (1) Southern Ontario Centre for Atmospheric Aerosol Research, University of Toronto, (2) Science and Technology Branch, Environment Canada
| 8I.7
| Nanoparticle Growth via Organic Condensation in the Atmosphere. ERICA R TRUMP (1), Neil M Donahue (1), (1) Carnegie Mellon University, Pittsburgh
| 8I.8
| Student-Accessible Modeling Tools for Inquiry-Based Learning in the Atmospheric Sciences. SERENA H. CHUNG (1), Kristen Howard (1), B. Thomas Jobson (1), Shane Brown (1), Timothy M. VanReken (1) , (1) Washington State University
| 8I.9
| Aerosol Cluster-Ion Interactions: The boundary between Chemical Ionization and Diffusion Charging. VINAY PREMNATH (1), Christopher J. Hogan, Jr. (1), (1) University of Minnesota, Twin Cities
| 8I.10
| Freezing of highly supercooled water nanodroplets. BARBARA E. WYSLOUZIL (1), Alexandra A. Manka (2), Judith Wölk (2), Reinhard Strey (2), Shinobu Tanimura (1), Heather C. Allen (1) , (1) The Ohio State University (2) Universität zu Köln
| 8I.11
| A Study on Hygroscopicity and Volatility of Asian Dust particles. Jae-Seok Kim (1), Kihong Park(1), (1) School of Environmental Science and Engineering, Gwangju Institute of Science and Technology (GIST)
| 8I.12
| Measurements of the Hygroscopic Growth of Aerosol Scattering Coefficients in Eastern China. Yan Peng(1), Li Weiliang(1), Liu Yu(1), Pan Xiaole(1), Tang Jie(1), (1)Chinese Academy of Meteorological Sciences, Beijing
| 8I.13
| Measurement of Optical Properties of Coated Absorbing Particles. ARKA SOEWONO (1), Steve Rogak (1), (1) University of British Columbia, Vancouver, Canada
| 8I.14
| Optical Property Characterization of Aggregated and Porous Carbonaceous Particles. SIN YOUNG LEE (1) , Asep Bayu Dani Nandiyanto (1), Ferry Iskandar (1), Kikuo Okuyama (1), (1) Hiroshima University
| 8I.15
| Modeling Optical Scatter from Multi-Component Particles. ADAM B. MILSTEIN (1) and Jonathan M. Richardson (1), (1) MIT Lincoln Laboratory
| 8I.16
| Model-measurement Comparison of New Particle Formation Events in a Global Aerosol Microphysics Model. DANIEL WESTERVELT (1), Ilona Riipinen (1), Jeffrey Pierce (2), Peter Adams (1), (1) Carnegie Mellon University, Pittsburgh, PA (2) Dalhousie University, Halifax, NS
|
8J CONTROL TECHNOLOGY II
EXHIBIT HALL
8J.1
| Evaluation of Enclosed Cab Filters for Reducing Diesel Particulate Matter. JAMES NOLL, Andy Cecala, John Organisak, NIOSH, Pittsburgh, PA
| 8J.2
| Characterization of the Most Penetrating Aerosol through State-of-the-Art Filters in Electrical Steelmaking. CRISTINA GUTIERREZ-CANAS (1), Luisa Marroquin (2), Alfredo Perez (2), Saioa Astarloa (2), Juan Andres Legarreta (1), and Fernando Vergniory (3)., (1) University of the Basque Country, Alameda Urquijo, 48013Bilbao, Spain (2) AIRg, María Díaz de Haro, 48920 Portugalete, Spain (3) ACYMA Chavarri, 4, 48910 Sestao, Spain
| 8J.3
| Investigation on wettability of typical coal combustion fly ashes using a novel method based on flotation mechanism. Hailong Li(1,2), Junying Zhang(1), Yongchun Zhao(1), Chang-Yu Wu(2), (1 )State Key Laboratory of Coal Combustion, Huazhong University of Science and Technology, (2 )Department of Environmental Engineering Sciences, University of Florida
| 8J.4
| Numerical Modeling of Nanoparticle Collection Efficiency of a Single-Stage Wire-in-Plate Electrostatic Precipitator. Guan-Yu Lin (1), CHUEN-JINN TSAI (1), (1) Institute of Environmental Engineering, National Chiao Tung University
| 8J.5
| ESP generated nanoparticles. CHIH-WEI LIN, Sheng-Hsiu Huang, Chih-Chieh Chen, College of Public Health, National Taiwan University
| 8J.6
| Collective Protection (COLPRO) Protection Factors (PF) Methodology Development using High Concentration Polydisperse Inert Aerosols. MICHAEL WILLIAMSON (1), Robert Doherty (2), Victor Arca (4), Jana Kesavan (1), Daryl Jones (1), Deborah Schepers (3) , (1) Edgewood Chemical and Biological Center (2) SCIENCE APPLICATIONS INTERNATIONAL CORPORATIONS (3) NOBLIS CORPORATION (4) JACOBS ENGINEERING
| 8J.7
| Effect of Nanoparticle Challenge with Cyclical Concentration on Filter Loading Characteristics. KYOUNGTAE KIM (1), David Y.H. Pui (1), (1) University of Minnesota
| 8J.8
| The ultra-fine particle removal performance of a wet electrostatic precipitator for oxy-fuel combustion. Hak-Joon Kim(1), Bangwoo Han(1), Won-Suk Hong(1), Wan-Ho Shin(1), Sang-Hyun Jeong(1), Sung-Hoon Shim(1), Yong-Jin Kim(1), (1) Korea Institute of Machinery and Materials (KIMM), Daejeon, South Korea
| 8J.9
| The Effect of Thermal Process During Machining Operations on the Quality Factor of Multilayer Fibrous Filters. TOMASZ JANKOWSKI (1), Witold Gador (1), (1) Department of Chemical and Aerosol Hazards, Central Institute for Labour Protection – National Research Institute
| 8J.10
| Investigation of Filtration of Liquid Aerosols Emitted at Machining Operations that Use Coolant Liquids. TOMASZ JANKOWSKI (1), Witold Gador (1), (1) Department of Chemical and Aerosol Hazards, Central Institute for Labour Protection - National Research Institute
| 8J.11
| Experimental Study of Submicron Particle Removal Using a Carbon Fiber Ionizer-assisted Glass Fiber Filter in Application to a HVAC System. JAE HONG PARK (1), Ki Young Yoon (2), Jungho Hwang (1), (1) School of Mechanical Engineering, Yonsei University (2) Exhaust Emission Engineering Team, Hyundai Motor Company
| 8J.12
| Antibacterial Effect of Spark-generated Titanium Particles Deposited on Glass Fiber Filters. Yang Seon Kim (1), Jae Hong Park (1), Jungho Hwang (1), (1) School of Mechanical Engineering, Yonsei University
|
8K SPECIAL SYMPOSIUM: AEROSOL DRUG DELIVERY III
EXHIBIT HALL
8K.1
| Alternative use of the Next Generation Impactor during Mechanical Ventilation. YUE ZHOU (1), Hui-Ling Lin (2), Yung-Sung Cheng (1), (1) Lovelace Respiratory Research Institute, Albuquerque, NM (2) Chang Gung University, Taiwan
| 8K.2
| In vitro measurements of inhaled aerosols targeted via magnetic alignment of optimized iron oxide loaded high aspect ratio particles. Gillian E. S. Redman (1) and Warren H. Finlay (1), (1) University of Alberta
| 8K.3
| Use of an Ultrasound Field to Achieve Alignment of High Aspect Ratio Inhaled Pharmaceutical Aerosol Particles for Targeted Pulmonary Drug Delivery. S. Yuen (1) and W.H. Finlay (1), Dept. of Mechanical Engineering, University of Alberta
| 8K.4
| Predicting Deposition Efficiency of High Aspect Ratio Particles in the Lung Due to Magnetic Field Alignment using Direct Numerical Simulations. W. H. Finlay (1), R. C. MARTINEZ (1), P. Minev (2) , (1) Department of Mechanical Engineering, University of Alberta, Canada (2) Department of Mathematical and Statistical Sciences, University of Alberta, Canada *authors are listed alphabetically
| 8K.5
| Impact Angles: Are Two Better than One for Powder De-agglomeration?. Santosa Adi (1), Zhenbo Tong (2), Handoko Adi (1), Hak-Kim Chan (1), Runyu Yang (2), Aibing Yu (2), (1) Advanced Drug Delivery Group, Faculty of Pharmacy, University of Sydney, (2) School of Materials Science and Engineering, University of New South Wales
| 8K.6
| Effect of solid and liquid bridge formation on powder agglomerate strength and aerosol performance of mannitol for inhalation. Santosa Adi (1), Zhenbo Tong (2), Handoko Adi (1), Hak-Kim Chan (1), Runyu Yang (2), Aibing Yu (2), (1) Advanced Drug Delivery Group, Faculty of Pharmacy, University of Sydney, (2) School of Materials Science and Engineering, University of New South Wales
| 8K.7
| Controlled, Parametric, Individualized, 3D SPECT Measurements of respiratory Tract Deposition in Healthy Subjects Compared to Analytical Simulations. MARINE PICHELIN (1), Georges Caillibotte (1), Ira Katz (1,2), Joy Conway (3), John Fleming (4), Caroline Majoral (1), Diane Perchet (1), Ted Martonen (5,6), Gabriela Apiou-Sbirlea (1), Livia Tossici-Bolt (4), Bernhard Muellinger (7), (1) Medical Gases Group, Air Liquide R&D CRCD, Les-Loges-en-Josas, France, (2) Department of Mechanical Engineering, Lafayette College, Easton, PA, USA, (3) School of Health Sciences, University of Southampton, Southampton, UK, (4) Department of Medical Physics and Bioengineering, Southampton University Hospitals, NHS Trust, Southampton, UK, (5) CyberMedicine, Laguna Beach, CA, USA, (6) Department of Medicine, University of North Carolina, Chapel Hill, USA, (7) Activaero GmbH, Gemünden, Germany
| 8K.8
| Inhalable Single Crystalline Particles Containing Two Low-Dose Active Ingredients. Michiko Kumon (1), PHILIP CHI LIP KWOK (1), Handoko Adi (1), Desmond Heng (2), Hak-Kim Chan (1), (1) Advanced Drug Delivery Group, Faculty of Pharmacy, Building A15, The University of Sydney, NSW 2006, Australia, (2) Crystallization and Particle Science Group, Institute of Chemical and Engineering Sciences (ICES), Agency for Science, Technology and Research (A*STAR), 1 Pesek Road, Jurong Island, Singapore 627833
| 8K.9
| Effect of Aerolizer® and capsule materials on the electrification of spray dried mannitol particles. PHILIP CHI LIP KWOK, Priscilla Tran, Hak-Kim Chan, Advanced Drug Delivery Group, Faculty of Pharmacy, Building A15, The University of Sydney, NSW 2006, Australia
| 8K.10
| Airborne delivery of complex drugs to inhibit growth of lung tumors. GEDIMINAS MAINELIS (1), Zuocheng Wang (1), Olga Garbuzenko(2), and Tamara Minko(2) 1Rutgers University, Dept. Env. Sciences, 14 College Farm Rd., New Brunswick, NJ; 2Rutgers University, Ernest Mario School of Pharmacy, 160 Frelinghuysen Road, Piscataway, NJ. , (1) Rutgers University, Dept. Env. Sciences (2) Rutgers University, Ernest Mario School of Pharmacy
| 8K.11
| Laser Diffraction Measurement of Droplet Sizes Generated by Vibrating Mesh Nebulization in Air and a Helium-Oxygen Mixture. AR Martin (1), J Gleske (2), IM Katz (1,3), M Hartmann (2), B Mullinger (2), S Haussermann (1), G Caillibotte (1), G Scheuch (2), (1) Medical Gases Group, Air Liquide R&D CRCD, Les Loges-en-Josas, France (2) Activaero GmbH, Gauting, Germany (3) Department of Mechanical Engineering, Lafayette College, Easton, PA, USA
| 8K.12
| Dry powder inhaler design: A computational approach. William Wong (1), Handoko Adi (1), Daniela Traini (1), Hak-Kim Chan (1), David F. Fletcher (1), John Crapper (2), Paul M. Young (1) , (1) The University of Sydney, Australia, (2) Pharmaxis Ltd., Australia
| 8K.13
| Multidrug Encapsulation by Coaxial Tri-capillary Electrospray. Yi-Hsuan Lee (1) Da-Ren Chen (1), (1) Department of Energy, Environmental, and Chemical Engineering, Washington University, St. Louis,
| 8K.14
| Numerical Simulation and In-vitro measurements of Aerosol Deposition in the Carleton-Civic Standardized Human Nasal Cavity. Yuan Liu (1), Edgar A. Matida (1), Matthew R. Johnson (1), (1) Carleton University
| 8K.15
| Fast, Efficient and Dose-Controlled Delivery of Plain and Coated Gold Nanoparticles to Pulmonary Cells (A549) cultured at the Air-Liquid Interface: Implications for Cellular Uptake and Trafficking. Anke-Gabriele Lenz (1), Christina Brandenberger (2), Christian Mühlfeld (3), Zulqurnain Ali (4), Wolfgang J. Parak (4), Peter Gehr (2), Barbara Rothen-Rutishauser (2), OTMAR SCHMID (1) , (1) Comprehensive Pneumology Center, Institute of Lung Biology and Disease, Helmholtz Zentrum München, Neuherberg, Germany (2) Institute of Anatomy, Division of Histology, University of Bern, Bern, Switzerland (3) Institute of Anatomy and Cell Biology, Justus-Liebig-University Giessen, Giessen, Germany (4) Physics Department, Philipps Universität Marburg, Marburg, Germany
|
8L SPECIAL SYMPOSIUM: ADVANCED MATERIALS FOR ENERGY APPLICATIONS I
EXHIBIT HALL
8L.1
| CdSe Nanoparticles on Graphene for Photovoltaic Applications. KEHAN YU, Haejune Kim, Ganhua Lu, Junhong Chen , University of Wisconsin-Milwaukee
| 8L.2
| Ultra-Fast Reactions Between Nanoparticles for Propulsion. L. Zhou, N. Piekiel, M. R. ZACHARIAH, University of Maryland, College Park, MD
| 8L.3
| Hydrolysis Kinetics of Free Zn Nanocrystal for Hydrogen Production. XIAOFEI MA (1), Michael R. Zachariah (1), (1) University of Maryland-College Park
| 8L.4
| Simulation to Predict the Morphology of Nanostructured TiO2 Thin Film for Solar Energy Application. VIVEK SHAH, Rohit Ray, Woo-Jin An, and Pratim Biswas, Washington University in St. Louis
| 8L.5
| In-situ Carbon-Black-Coated LiFePO4 Nanoparticles for Li-ion Batteries. OLIVER WASER (1), Robert Buchel (1), Andreas Hintennach (2), Frank Krumeich (1), Petr Novák (2), Sotiris E. Pratsinis (1), (1) ETH Zurich, (2) Paul Serrer Institute, Villigen
|
Thursday 1:30 PM - 2:45 PM
Session 9: Platform
9A REMOTE & REGIONAL ATMOSPHERIC AEROSOLS II
B 113/114
Ann Dillner and Dan Murphy, chairs
9A.1
1:30 | Aging of Atmospheric Organic Particulate Matter: Insights from Remote Ambient Measurements and Laboratory Experiments. LEA HILDEBRANDT (1), Evangelia Kostenidou (2), Gabriella J. Engelhart Farnham (1), Valentin A. Lanz (3), Claudia Mohr (3), Peter F. DeCarlo (3), Andre S. H. Prevot (3), Urs Baltensperger (3), Nikos Mihalopoulos (4), Neil M. Donahue (1), Spyros N. Pandis (1,2), (1) Carnegie Mellon University, Pittsburgh, USA (2) University of Patras, Patra, Greece (3) Paul Scherrer Institut, Villigen, Switzerland (4) University of Crete, Heraklion, Greece
| 9A.2
1:45 | Size-Fractionated Ferrous Iron and its Chemical Associations in Aerosols over the Equatorial Pacific Ocean. ANNE M. JOHANSEN (1), Lindsey M. Shank (2), (1) Central Washington University, Ellensburg, WA, (2) University of Hawaii, Honolulu, HI
| 9A.3
2:00 | Measurements of Newly Formed 1 – 3 Nanometer Particles Using a High-Time Resolution Nanoparticle Size Spectrometer. CHONGAI KUANG (1), Jian Wang (1), Peter H. McMurry (2), (1) Atmospheric Sciences Division, Brookhaven National Laboratory, (2) Department of Mechanical Engineering, University of Minnesota
| 9A.4
2:15 | Ammonium Chloride Formation and Its Impact on Heterogeneous Chemistry in the Troposphere. ANN MIDDLEBROOK (1), Roya Bahreini (1,2), Chuck Brock (1), Steve Brown (1), Simon Clegg (3), Julie Cozic (4), Katie Hall (1,2), Andy Neuman (1,2), John Nowak (1,2), Trish Quinn (5), Theran Riedel (6), Jim Roberts (1), Kristen Schultz (5), Joel Thornton (6), and Nick Wagner (1,2), (1) Earth System Research Laboratory, NOAA, Boulder, CO, USA. (2) CIRES, University of Colorado, Boulder, CO, USA. (3) University of California, Davis, USA and University of East Anglia, UK. (4) Laboratoire de Glaciologie et Géophysique de l'Environnement, Cedex, France. (5) Pacific Marine Environmental Laboratory, NOAA, Seattle, WA, USA. (6) University of Washington, Seattle, WA, USA.
| 9A.5
2:30 | Long-term Observations of New Particle Formation in South African Savannah. VILLE VAKKARI (1), Heikki Laakso (1), Desmond Mabaso (2), Moses Molefe (3), Nnenesi Kgabi (3), Markku Kulmala (1), Lauri Laakso (1,4), (1) University of Helsinki, Dept. Physics, P. O. Box 64, 00014 Univ. of Helsinki, Finland, (2) Rustenburg Local Municipality, Rustenburg, Republic of South Africa, (3) Department of Physics, North-West University, Private Bag X 2046, Mmabatho, South Africa, (4) School of Physical and Chemical Sciences, North-West University, Potchefstroom, Republic of South Africa
|
9B AEROSOL CHEMISTRY VII: AMIGAS/NCCN STUDIES
B 115/116
Stephanie Shaw and Jessie Cremean, chairs
9B.1
1:30 | Characterization and Quantification of Isoprene-Derived Epoxydiols in Ambient Aerosol in the Southeastern United States. MAN NIN CHAN(1), Jason D. Surratt (2), Magda Claeys(3), Eric S. Edgerton(4), Roger L. Tanner(5), Stephanie L. Shaw(6), Mei Zheng(7), Eladio M. Knipping(8), Nathan C. Eddingsaas(2), Paul O. Wennberg(1,9), and John H. Seinfeld (1,2), (1)Division of Engineering and Applied Science, California Institute of Technology, Pasadena, California, USA., (2)Division of Chemistry and Chemical Engineering, California Institute of Technology, Pasadena, California, USA., (3) Department of Pharmaceutical Sciences, University of Antwerp, Antwerp, Belgium., (4) Atmospheric Research and Analysis, Inc., Cary, North Carolina, USA., (5) Environmental Technologies, Tennessee Valley Authority, Muscle Shoals, Alabama, USA., (6) Electric Power Research Institute, Palo Alto, California, USA., (7)School of Earth and Atmospheric Sciences, Georgia Institute of Technology, Atlanta, Georgia, USA., (8)Electric Power Research Institute, Washington, DC, USA., (9) Division of Geological and Planetary Sciences, California Institute of Technology, Pasadena, California, USA
| 9B.2
1:45 | First Measurements of Atmospheric Cluster and 1-2 nm Particle Number Distribution Functions During Nucleation Events. PETER MCMURRY (1), Jingkun Jiang (1), Jun Zhao (2), Modi Chen (1), Jacob Scheckman (1), Brent Williams (1), Fred Eisele (2) , (1) University of Minnesota, Minneapolis, (2) National Center for Atmopsheric Research, Boulder
| 9B.3
2:00 | Real-Time Observations of Organosulfate Species in Ambient Aerosols by Single Particle Mass Spectrometry in Atlanta, GA. LINDSAY E. HATCH (1), Jessie M. Creamean (1), Andrew P. Ault (1), Jason D. Surratt (2), ManNin Chan (2), John H. Seinfeld (2), Kimberly A. Prather (1), (1) University of California, San Diego, (2) California Institute of Technology
| 9B.4
2:15 | Compositional and mixing state impacts, including the effects of new particle formation, on size-resolved CCN concentrations in Atlanta, Georgia during 2009. RICHARD H. MOORE (1), Molly McLaughlin (1), Athanasios Nenes (1), Jacob Scheckman (2), Jingkun Jiang (2), Modi Chen (2), Peter McMurry (2), Jun Zhao (3), Jim Smith (3), Fred Eisele (3), (1) Georgia Institute of Technology, Atlanta, GA (2) University of Minnesota, Minneapolis, MN (3) National Center for Atmospheric Research, Boulder, CO
| 9B.5
2:30 | Mixing State and Compositional Effects on CCN Activity and Droplet Growth Kinetics of Size-Resolved CCN in an Urban Environment. LUZ TERESA PADRO (1), Richard H. Moore (1), Xialou Zhang (1), Neeraj Rastogi (1,2), Jessie Creamean (3), Lindsay Hatch (3), Andrew Ault (3), Kimberly A. Prather (3), Rodney J. Weber (1), and Athanasios Nenes (1), (1) Georgia Institute of Technology, (2) University of Toronto, (3) University of California San Diego
|
9C HEALTH RELATED AEROSOLS IV
B 117/118/119
Pratim Biswas and Yung-Sung Cheng, chairs
9C.1
1:30 | Role of Nanoparticle Chemical Composition and Particle Size on Toxicity of Cu-doped TiO2 Nanomaterials in Environmental Microorganism. MANORANJAN SAHU, Bing Wu, Liying Zhu, Wei-Ning Wang, Yinjie Tang, and Pratim Biswas, Washington University in St. Louis
| 9C.2
1:45 | Laboratory Evaluation of A Personal, Thermophoretic Sampler for Airborne Nanoparticles. Daniel Thayer (1), Kirsten Koehler (1), Amy Prieto (1), Anthony Marchese (1), JOHN VOLCKENS (1), (1) Colorado State University, Fort Collins
| 9C.3
2:00 | Potential Exposure to Nanoparticles Released from Consumer Products. GEDIMINAS MAINELIS (1,2), Yevgen Nazarenko (1), and Paul J. Lioy (2,3), (1) Rutgers University, Department of Environmental Sciences, (2) Rutgers University, Environmental and Occupational Health Sciences Institute, (3) UMDNJ-Robert Wood Johnson Medical School.
| 9C.4
2:15 | Particle Associated Semivolatile Organics Adversely Affect Cardiac Physiology. MICHAEL T. KLEINMAN(1), Glenn Gookin (1), Michael MacKinnon (1), Dianne Meacher (1), Constantinos Sioutas (2), (1) University of California, Irvine (2) University of Southern California
| 9C.5
2:30 | Iron fortification: Flame-made nanostructured Mg- or Ca-doped Fe oxides. Jesper T.N. Knijnenburg, Florentine M. Hilty, Alexandra Teleki, Frank Krumeich, Richard F. Hurrell, Michael B. Zimmermann, SOTIRIS E. PRATSINIS, ETH Zurich, Switzerland
|
9D INSTRUMENTATION AND METHODS VI
B 110/111/112
Andrew Freedman and Mike Bogan, chairs
9D.1
1:30 | Photoacoustic Extinctiometer (PAX): A New Instrument for Measurement of Climate-Relevant Optical Properties of Aerosols. GREG KOK (1), John W. Walker (1), William P. Arnott (2), Ian J. Arnold (2), and Patricia B. Keady (1), (1) Droplet Measurement Technologies, Boulder, (2) University of Nevada Reno
| 9D.2
1:45 | Direct Measurement of Aircraft Engine Soot Single Scatter Albedo Using a Cavity-Attenuated Phase Shift (CAPS)–Based Extinction Monitor. Zhenhong Yu (1), Luke D. Ziemba (2), Ezra C. Wood (1), Scott C. Herndon (1), Simon E. Albo (1), Richard Miake-Lye (1), Timothy B. Onasch (1), Bruce E. Anderson (2), Paul L. Kebabian (1) and ANDREW FREEDMAN (1), (1) Aerodyne Research, Inc. (2) NASA Langley Research Center
| 9D.3
2:00 | Cavity Enhanced Aerosol Extinction Spectroscopy for the Measurement of the Optical Properties of Atmospheric Particles. Abdur Rasheed (1), Kevin B. Sayer (1), DANIEL B. CURTIS (1), (1) California State University, Northridge
| 9D.4
2:15 | Comparison of Ten Source Measurement Techniques for Black Carbon. T.L.B YELVERTON (1), W.P. Linak (1), G.S.W. Hagler (1), M.D. Hays (1), R. Subramanian (2), B.K. Gullett (1), (1) United States Environmental Protection Agency, Office of Research and Development, National Risk Management Research Laboratory, Air Pollution Prevention and Control Division, Research Triangle Park, NC. (2) Droplet Measurement Technologies, Boulder, CO
| 9D.5
2:30 | Real-time Imaging of Individual Airborne PM2.5 with Nanometer Resolution using X-ray Free Electron Lasers. MICHAEL J BOGAN, Dmitri Starodub, Christina Y. Hampton, Stanford PULSE Institute for Ultrafast Energy Science, SLAC National Accelerator Laboratory, Menlo Park, CA
|
9E INDOOR AEROSOLS/EXPOSURE IV
A 106
Jonathan Thornburg and Owen Price, chairs
9E.1
1:30 | Application of Bumpy-Particle Model for Dust Particle Resuspension from Common Flooring in Turbulent Flows. Iman Goldasteh (1), Goodarz Ahmadi (1), Andrea Ferro (2), (1) Department of Mechanical and Aeronautical Engineering, Clarkson University, Potsdam, NY, 13699, U.S.A. (2) Department of Civil and Environmental Engineering, Clarkson University, Potsdam, NY, 13699, U.S.A.
| 9E.2
1:45 | Investigation of Electrostatic Effect on Particle Resuspension Due to Human Walking. Xinyu Zhang(1), GOODARZ AHMADI(1), Jing Qian(2), Andrea Ferro(2), (1)Department of Mechanical and Aeronautical Engineering, Clarkson University (2)Department of Civil and Environmental Engineering, Clarkson University
| 9E.3
2:00 | Indoor Concentration of >2.5 Micron Particles as a Human Activity Indicator. JAMES E. FARNSWORTH (1) and Anthony Hase (1), (1) TSI Incorporated
| 9E.4
2:15 | Enhancement of Phthalate Emissions from Vinyl Flooring due to Partitioning to Particles. Jennifer L. Benning (1), Andrea J. Tiwari (2), Zhe Liu (2), John C. Little (2), LINSEY C. MARR (2), (1) South Dakota School of Mines and Technology, Rapid City, (2) Virginia Tech, Blacksburg
| 9E.5
2:30 | Experimental Methodology to Determine Absolute Particle Resuspension Fractions for Indoor Surfaces. BRANDON E. BOOR (1), Jeffrey A. Siegel (1), Atila Novoselac (1), (1) The University of Texas at Austin
|
Thursday 2:45 PM - 3:15 PM
Coffee Break
Thursday 3:15 PM - 4:45 PM
Session 10: Platform
10A CARBONACEOUS AEROSOLS IN THE ATMOSPHERE VI
B 113/114
David Cocker and Marissa Miracolo, chairs
10A.1
3:15 | Estimating Black Carbon Aging Time-Scales with a Particle-Resolved Aerosol Model. NICOLE RIEMER (1), Matthew West (1), Rahul A. Zaveri (2), Richard C. Easter (2), (1) University of Illinois at Urbana-Champaign, Illinois, (2) Pacific Northwest National Laboratory, Washington
| 10A.2
3:30 | Measured Impact of Black Carbon on Snow Surface Albedo. ODELLE HADLEY (1), Thomas Kirchstetter (1), Mark Flanner (2), (1) Lawrence Berkeley National Laboratory (2) University of Michigan, Ann Arbor
| 10A.3
3:45 | Generation and Analysis of Organic-Coated Aerosols. PATRICK W. HILLYARD (1), Barbara V. Scarnato (2), Anthony W. Strawa (3), and Thomas W. Kirchstetter (4), (1) Bay Area Environmental Research Institute, (2) Oak Ridge Associated Universities, (3) NASA Ames Research Center, (4) Lawrence Berkeley National Laboratory
| 10A.4
4:00 | Measurement of the Absorption Cross-Section and Amplification of Uncoated and Coated Soot Aerosols with Photoacoustic Spectroscopy. Pedro Bueno(1,2), Daniel Havey (2), GEORGE MULHOLLAND (1, 2), Joseph Hodges (2), Keith Gillis (2), Russell Dickerson (1) and Michael Zachariah (1, 2), 1. University of Maryland, College Park, MD 2. National Institute of Standards and Technology, Gaithersburg, MD
| 10A.5
4:15 | Slow Aging in Secondary Organic Aerosols Observed by Liquid Chromatography with Simultaneous Detection via Spectrophotometry and High-Resolution Mass Spectrometry. David L. Bones (1), Julia Laskin (2), Alexander Laskin (3) and SERGEY A. NIZKORODOV (1), (1) University of California, Irvine (2) Chemical and Materials Sciences Division, Pacific Northwest National Laboratory. (3) William R. Wiley Environmental Molecular Sciences Laboratory, Pacific Northwest National Laboratory.
| 10A.6
4:30 | Aerosol Phase Thermal Treatment of Flame Soot. Brandon J. Winters (1) Jeffery T. Roberts (2), (1) Department of Chemistry, University of Minnesota (2) Purdue University
|
10B SPECIAL SYMPOSIUM: ADVANCED MATERIALS FOR ENERGY APPLICATIONS II
B 115/116
Pratim Biswas and Michael Zachariah, chairs
10B.1
3:15 | Materials for Energy Applications at Cabot Corporation. SHELDON DAVIS, Cabot Corporation
| 10B.3
3:45 | Liquid Fuels Decomposition Catalyzed by in situ Generated Iron Nanoparticles: A Potential Route to Solar Hydrogen Production. XIAOFEI MA (1), Anshuman A. Lall (2), Natan Aronhime (1), Michael R. Zachariah (1), (1) University of Maryland-College Park, (2) US Naval Research Laboratory
| 10B.4
4:00 | Thermal Conductivity Effects during Synthesis of Nanostructured TiO2 Thin Films. WOO-JIN AN (1), David D. Jiang (2), James R. Matthews (2), Nicholas F. Borrelli (2) and Pratim Biswas (1), (1) Washington University in St. Louis, Saint Louis, (2) Corning Incorporated, Painted Post
| 10B.5
4:15 | Photocatalytic Conversion of CO2 to Fuels by Doped TiO2 Nanocomposites. YING LI(1), Qianyi Zhang (1), (1) University of Wisconsin, Milwaukee
| 10B.6
4:30 | Flame synthesis of plasmonic Au nanoparticles for enhanced photoactivity in photoelectrochemical solar cells. Elijah Thimsen (1), Scott Warren (1), Florian Le Formal (1), Leo-Philipp Heiniger and Michael Graetzel (1), (1) Ecole Polytechnique Fédérale de Lausanne
|
10C HEALTH RELATED AEROSOLS V
B 117/118/119
Philip K. Hopke and Gediminas Mainelis, chairs
10C.1
3:15 | Seasonal Variation of Airborne Particle Deposition Efficiency in the Human Respiratory System. WALTER HAM (1), Chris Ruehl (1), Michael Kleeman (1), (1) University of California, Davis
| 10C.2
3:30 | Transport and Deposition of Asbestos Fibers in Human Upper Airways. LIN TIAN (1) Goodarz Ahmadi (2) Philip K Hopke (2) Yung-Sung Cheng (3) , (1) State University of New York, Canton (2) Clarkson University (3) Lovelace Respiratory Research Institute
| 10C.3
3:45 | Lung Deposition of Highly Agglomerated Nanoparticles. JACOB H. SCHECKMAN (1), Peter H. McMurry (1), (1) University of Minnesota
| 10C.4
4:00 | A Sampling Criterion for Nanoparticles. THOMAS PETERS (1), Chong Kim (2), Lorenzo Cena (1), T. Renee Anthony (1), (1) University of Iowa, Iowa City, (2) US EPA, Research Triangle Park
| 10C.5
4:15 | Exposure-Dose Analysis of Various Bimodal Ambient Aerosols in Adult Subjects. Chong Kim (1), Jung-il Choi (2), (1) U.S. EPA NHEERL, Research Triangle Park, (2) North Carolina State University, Raleigh
| 10C.6
4:30 | Development of a Size-Selective Thoracic Fraction of Fiber Aerosols. YUNG SUNG CHENG, Wei-Chung Su, Yue Zhou, Lovelace Respiratory Research Institute, Albuquerque
|
10D INSTRUMENTATION AND METHODS VI
B 110/111/112
Da-Ren Chen and Chuen-Jinn Tsai, chairs
10D.1
3:15 | Personal Nanoparticle Spectrometer for Nanoaerosol Exposure Measurement. CHAOLONG QI, Pramod Kulkarni, National Institute for Occupational Safety and Health
| 10D.2
3:30 | Performance Study of a Portable Particle Sizer Under Practical Working Environment. Siqin He (1), Lin Li (1), Da-Ren Chen (1), Washington University in St. Louis (1)
| 10D.3
3:45 | Characterizing and Deploying the UNC Passive Aerosol Sampler for Ultrafine Aerosol Monitoring. DAVID G. NASH (1), David Leith (1), (1) University of North Carolina, Chapel Hill, NC
| 10D.4
4:00 | Development of a Multi-Domain Magnetic Passive Aerosol Sampler for Measuring Particle Penetration through Personal Protective Ensembles. Ta-Chih Hsiao (1), Peter Jaques (2), Pengfei Gao (1), (1) NIOSH/NPPTL, Pittsburgh, PA, (2) Washington Division of URS, Pittsburgh, PA
| 10D.5
4:15 | A Handheld Electrostatic Precipitator for Sampling Airborne Particles. Art Miller (1), Grant King (1), Aleks Bugarski (1), Emanuele Cauda (1), (1) NIOSH - Mining
| 10D.6
4:30 | Differences between Solid and Liquid Particle Aspiration Efficiency for Personal Aerosol Samplers. Kirsten A. Koehler (1), T. Renee Anthony (2), Michael Van Dyke (3), John Volckens (1), (1) Department of Environmental and Radiological Health Sciences, Colorado State University, Fort Collins, CO, 80523-1681 (2) Department of Occupational and Environmental Health, University of Iowa, Iowa City, IA, 52242 (3) Division of Environmental and Occupational Health Sciences, National Jewish Health, Denver, CO, 80206
|
10E INDOOR AEROSOLS/EXPOSURE V
A 106
Lupita Montoya and Andrea Ferro, chairs
10E.1
3:15 | Characterization of Airborne Particles Emitted During Sanding of Carbon Nanotube Nanocomposite Material. LORENZO CENA (1), Gary Casuccio (2), Renee Anthony (1), Thomas Peters (1), (1) University of Iowa, Iowa City, IA (2) RJLG Incorporated, Pittsburgh, PA
| 10E.2
3:30 | Particles Surface Area and Mass Concentration as Exposure Metrics for Diesel Particulate Matter Aerosol in US Underground Mines. EMANUELE CAUDA, Arthur Miller, US Department of Health and Human Services, Public Health Service, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health, Office of Mine Safety and Health Research, 626 Cochrans Mill Road, Pittsburgh, PA 15236, USA.
| 10E.3
3:45 | Efficiency of Retrofit Systems on Reducing Ultrafine Particles and Other Pollutants Emitted by Diesel-powered School Buses. QUNFANG ZHANG, Shusen Liu, Yifang Zhu, Texas A&M University-Kingsville
| 10E.4
4:00 | The Value of Ambient Monitoring for Estimating Personal and Community Coarse PM Mass Concentrations. RON WILLIAMS (1), Ana Rappold (1), Karin Yeatts (2), Martin Case (1), Fu-lin Chen (1), Jonathan Thornburg (3), Robert Devlin (1), (1) US Environmental Protection Agency, (2) University of North Carolina-Chapel Hill, (3) RTI International, Research Triangle Park
| 10E.5
4:15 | Improving Exposure Estimates to Outdoor PM2.5 by Modeling Time-Resolved and Species-Specific Aerosol Penetration and Persistence into Homes. MELISSA LUNDEN (1), Natasha Hodas (2), Barbara Turpin (2), (1) Lawrence Berkeley National Laboratory, Berkeley, (2) Rutgers University, New Brunswick
| 10E.6
4:30 | Inhalation Intake Fraction for Ultrafine Particles Emitted from Episodic Indoor Sources in Residences. SEEMA BHANGAR (1), Nasim A. Mullen (1), William W. Nazaroff (1), (1) University of California, Berkeley
|
Thursday 6:15 PM - 7:15 PM
Special Presentation
6:15
| Fixing the Sky: Cautionary tales from the history of climate engineering James Fleming. Colby College.
|
| Moderator: Lynn Russell. Oregon State University, Scripps Institution of Oceanography.
|
Friday 8:00 AM - 9:15 AM
Plenary IV
8:00
| Aerosol contribution to global warming, Arctic ice loss, and air pollution mortality and how to control it through large-scale renewable energy Mark Jacobson. Stanford University.
|
| Moderator: Paul Ziemann. University of California, Riverside.
| 9:00
| Student Poster Competition Award Presentation Leah Williams, Student Poster Program Chair. Aerodyne Research.
| 9:10
| Concluding Remarks, Preview for 2010 Cynthia Twohy & Lynn Russell, 2010 & 2011 Conference Chairs. Oregon State University, Scripps Institution of Oceanography.
|
Friday 9:15 AM - 9:45 AM
Coffee Break
Friday 9:45 AM - 11:00 AM
Session 11: Platform
11A CARBONACEOUS AEROSOLS IN THE ATMOSPHERE VII
B 113/114
Kelley Barsanti and Chris Hennigan, chairs
11A.1
9:45 | Laboratory Studies of the Gas/Aerosol Partitioning Behavior of Atmospheric Organic Particulate Matter from Biomass Combustion. SONIA KREIDENWEIS (1), Jeffrey Collett, Jr. (1), Taehyoung Lee (1), Amy Sullivan (1), Amanda Holden (1), Christian Carrico (1), Colette Heald (1), Wei Min Hao (2), Cyle Wold (2), Emily Lincoln (2), Doug Worsnop (3), Timothy Onasch (3), Ed Fortner (3), Achim Trimborn (3), Jesse Kroll (4), Jose-Luis Jimenez (5), Michael Cubison (5), Sanna Saarikoski (5), Carly Robinson (5), and Amber Ortega (5), (1) Colorado State University (2) USDA Forest Service Fire Sciences Laboratory (3) Aerodyne Research Inc. (4) Massachusetts Institute of Technology (5) University of Colorado
| 11A.2
10:00 | Using the Carbon-Number Polarity Grid Framework for Modeling Organic Particulate Matter as a Compound Lumping and Mapping Tool. KELLEY BARSANTI (1), William Asher (1,2), John Schneider (1), James Pankow (1), (1) Portland State University, Portland, (2) University of Washington, Seattle
| 11A.3
10:15 | SP-AMS Measurements of Black Carbon Containing Particles during the FLAME3 Smoke Chamber Study. EDWARD FORTNER (1), Achim Trimborn (1), Timothy Onasch (1), Gavin McMeeking (2), Taehyoung Lee (3), Hugh Coe (2), Jeff Collett (3), Sonia Kreidenweis (3), Cyle Wold (4), Wei Min Hao (4), John Jayne (1), Doug Worsnop (1), (1) Aerodyne Research Incorporated, Billerica MA USA (2) University of Manchester, Manchester England (3) Colorado State University, Ft. Collins CO USA (4) United States Forest Service Fire Sciences Laboratory, Missoula, MT USA
| 11A.4
10:30 | Secondary Organic Aerosol Formation from Biomass Burning Intermediates: Phenol and Methoxyphenols. Kathryn E. Kautzman (1), LINDSAY D. YEE (1), Puneet S. Chhabra (1), Christine L. Loza (1), Man Nin Chan (1), Scott P. Hersey (1), Arthur W.H. Chan (1), Paul O. Wennberg (1), Richard C. Flagan (1), John H. Seinfeld (1) , (1) California Institute of Technology
| 11A.5
10:45 | Secondary Organic Aerosol Formation from the Photo-oxidation of Biomass Burning Emissions. CHRISTOPHER J. HENNIGAN (1), Marissa A. Miracolo (1), Gabriella J. Engelhart Farnham (1), Amy P. Sullivan (2), Jeffrey L. Collett Jr. (2), Sonia M. Kreidenweis (2), Cyle E. Wold (3), Allen L. Robinson (1), (1) Carnegie Mellon University, (2) Colorado State University, (3) Missoula Fire Sciences Laboratory
|
11B HEALTH RELATED AEROSOLS VI
B 117/118/119
Constantinos Sioutas and Carlos Lange, chairs
11B.1
9:45 | Use of Surface Measurements and MODIS Aerosol Optical Depth for Improved Model Based PM2.5 Prediction in the United States. Sinan Sousan (1)(2) Jaemeen Baek (2) Naresh Kumar (3) Jacob Oleson (4) Scott Spak (2) Greg Carmichael (1)(2) Charles Stanier (1)(2), 1) Chemical and Biochemical Engineering Department, University of Iowa 2) Center for Global and Regional Environmental Research, University of Iowa 3) Geography Department, University of Iowa 4) Biostatistics Department, University of Iowa
| 11B.2
10:00 | Assessment of adverse health effects of Chemical Components present in the Atmospheric aerosol. Sapaan Gupta, K S Patel, V. K. Jena,, 1 PT R S University Raipur India 2PT R S University Raipur India 3. Columbia Institute of Technology Raipur India
| 11B.3
10:15 | Contribution of Transition Metals in the Reactive Oxygen Species Activity of PM Emissions from Retrofitted Heavy-duty Vehicles. VISHAL VERMA (1), Martin M. Shafer (2), James J. Schauer (2), Constantinos Sioutas (1), (1) University of Southern California, Los Angeles, (2) University of Wisconsin, Madison
| 11B.4
10:30 | Generation of Reactive Oxygen Species from San Joaquin Valley Particles in a Cell-Free Solution. HUIYUN SHEN (1), Abdul I. Barakat (1), Cort Anastasio (1), (1) University of California, Davis
| 11B.5
10:45 | Association of Cardiovascular Mortality with Various PM Indicators. William Wilson (1), Therese Mar (2), Jane Konig (2), (1) Environmental Protection Agency, Research Triangle Park, (2) University of Washington, Seattle
|
11C AEROSOL PHYSICS V
B 115/116
Shane Murphy and Ilona Riipinen, chairs
11C.1
9:45 | First Measurements of Individual-Particle Single Scattering Albedo in the Ambient Atmosphere. Murphy, S M (1), Sanford, T J (1), Froyd, K D (1), Murphy, D M (1) , (1) NOAA, Boulder
| 11C.2
10:00 | Light absorption by Secondary Organic Aerosol from Photooxidation of Alpha-pinene, D-limonene and Toluene. MIN ZHONG (1), Myoseon Jang (1), (1) University of Florida, Gainesville
| 11C.3
10:15 | Dynamic Relationship between Chemical Transformations and Optical Properties of Aerosols. Jessica Lu (1)(2), Ali Abo Riziq (1), Yinon Rudich (1), (1) Weizmann Institute, Rehovot, Israel (2) Department of Chemistry, Virginia Tech, Blacksburg, VA
| 11C.4
10:30 | Aerosol Optical Properties and their Impacts in a 3D Source Oriented Air Quality Model in California. Mengsteab H. Weldegaber (1), Steven P. DeNero (1), Shu-Hua Chen (2), Michael J. Kleeman (1), (1) Dept. of Civil and Environmental Engineering, University of California, Davis (2) Dept. of Land, Air and Water Resources, University of California, Davis
| 11C.5
10:45 | Finnish Volcanic Ash Balloon Mission: Instruments and First Results. TUUKKA PETÄJÄ (1), Lauri Laakso (2), Tiia Grönholm(1), Samuli Launiainen(1), Aki Virkkula (1), Ari Leskinen (3), John Backman (1), Hanna Manninen (1), Mikko Sipilä (1), Sami Haapanala (1), Kaarle Hämeri (4), Esa Vanhala (4), Timo Tuomi (4), Jussi Paatero (2), Minna Aurela (2), Hannele Hakola (2), Risto Hillamo (2), Mikhail Sofiev (2), Veli-Matti Kerminen (2), Ari Laaksonen (2), Kari Lehtinen (2), Markku Kulmala (1), Yrjö Viisanen (2), (1) Department of Physics, University of Helsinki, Finland, (2) Finnish Meteorological Institute, Helsinki, Finland, (3) University of Eastern Finland, Kuopio, Finland, (4) Finnish Institute of Occupational Health, Helsinki, Finland
|
11D INSTRUMENTATION AND METHODS VII
B 110/111/112
Susanne Hering and Chuck Brock, chairs
11D.1
9:45 | Single Particle Counting with a WCPC at One Million per Cubic Centimeter. SUSANNE HERING (1), Gregory Lewis (1), Frederick Quant (2), (1) Aerosol Dynamics Inc. (2) Quant Technologies, LLC
| 11D.2
10:00 | Use of a Next Generation Impactor for Effective Size-Separation of Aerosolized Environmental Samples. RICARDO D. TORRES (1), Eliel Villa-Aleman (1), Glenn A. Fugate (1), (1) Savannah River National Laboratory, Aiken, SC
| 11D.3
10:15 | Near Real-Time Measurement of Particle Density in Different Applications by Changing Charger Operational Parameters in an Electrical Low Pressure Impactor. ERKKI LAMMINEN, Elina Nieminen, Ville Niemelä, Dekati Ltd., Tampere, Finland
| 11D.4
10:30 | Performance Analysis of an Airborne Interstitial Particle Sampler Flown During the PLOWS Campaign. Arash Moharreri(1), Praney Dubey(1), LUCAS CRAIG(1), Allen Schanot(2), David C. Rogers(2), Darin Toohey(3), Suresh Dhaniyala(1), (1) Clarkson University, Potsdam, NY, (2) Earth Observing Laboratory, NCAR/RAF, Broomfield, CO, (3) University of Colorado, Boulder, CO
| 11D.5
10:45 | Development and testing of real-time MEMS based particle mass concentration sensor. Manish Ranjan(1), Michael Apte(1), Lara Gundel(1), and Richard White(2), (1) Lawrence Berkeley National Laboratory, Berkeley, CA (2) Berkeley Sensor & Actuator center, University of California, Berkeley
|
11E INDOOR AEROSOLS/EXPOSURE VI
A 106
Jana Kesavan and Bill Nazaroff, chairs
11E.1
9:45 | Microbial Load Recovered from FFRs Following Use in a Hospital Occupational Setting. *Wallace W.(1), N. Schewlakow (1), A. Lumley(1), B.K. Heimbuch(1), J.D. Wander (2), (1) Applied Research Associates, Inc. Tyndall AFB, Fl. 32403-5323 (2) AFRL/RXQL Tyndall AFB, FL. 32403-5323
| 11E.2
10:00 | A Small-Area Electrostatic Particle Deposition Device. RODNEY BLACK (1), Ryan W. Daly (1), Donald V. Kenny (1), (1) Battelle
| 11E.3
10:15 | Exhaled Aerosol Transport and Dispersion in a Scaled Chamber. ALVIN LAI,
| 11E.4
10:30 | The use of Puffers (MDIs) as Aerosol Delivery Devices. JANA KESAVAN (1), Deborah Schepers (1), Jerold Bottiger (1), US ARMY Edgewood Chemical Biological Center, Aberdeen Proving Ground
| 11E.5
10:45 | Temporal Variations of Size Distribution of Aerosol from Experimental Explosive Blasts. JAN HOVORKA (1), Zdenek Prouza (2), (1) Charles University in Prague, Czech Republic (2) National Radiation Protection Institute, Czech Republic
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Friday 11:00 AM - 11:15 AM
Short Break
Friday 11:15 AM - 12:30 PM
Session 12: Platform
12A REMOTE & REGIONAL ATMOSPHERIC AEROSOLS III
B 113/114
Jeff Collett and Ann Middlebrook, chairs
12A.1
11:15 | Decreases in elemental carbon and fine particle mass in the United States. DANIEL MURPHY (1), Judith C. Chow (2), Charles McDade (3), Marc Pitchford (4), Bret A. Schichtel (5), Warren H. White (3), (1) Chemical Sciences Division, Earth System Research Laboratory, National Oceanic and Atmospheric Administration, (2) Division of Atmospheric Sciences, Desert Research Institute, (3) Crocker Nuclear Laboratory, University of California Davis, Davis, (4) Air Resources Laboratory, National Oceanic and Atmospheric Administration, (5) National Park Service, Colorado State University
| 12A.2
11:30 | Regional Dust Storm Trend and Dust Source Areas Contribution to PM10 Concentrations in Iran. Raheleh Givehchi (1), MOHAMMAD ARHAMI (1), (1) Sharif University of Technology
| 12A.3
11:45 | Arctic Aerosols, Springtime Forest Fires, and Climate. Charles A. Brock (1) and the ARCPAC Science Team, (1) NOAA ESRL, Boulder
| 12A.4
12:00 | Real-time Single Particle Composition and Cloud Condensation Nuclei (CCN) Activity at Owens (dry) Lake Bed. MEAGAN J. K. MOORE (1) Elizabeth M. M. Fitzgerald (1) Greg C. Roberts (2) Kimberly A. Prather (1,2), (1) Department of Chemistry and Biochemistry, University of California, San Diego (2) Scripps Institution of Oceanography, University of California, San Diego
| 12A.5
12:15 | A High-Resolution Modeling System for Regional Carbonaceous Aerosols. TALAT ODMAN(1), Fernando Garcia-Menendez (1), Aika Yano (1), Yongtao Hu (1), Gary Achtemeier( 2), Scott McRae (3), (1) Georgia Institute of Technology, (2) US Forest Service, Athens GA (3) North Carolina State University
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12B AEROSOL CHEMISTRY VIII
B 115/116
David De Haan and Yi Tan, chairs
12B.1
11:15 | Mechanisms Leading to Oligomers and SOA through Aqueous Photooxidation: Insights from OH Radical Oxidation of Acetic Acid. YI TAN (1), Yong Bin Lim (1), Katye Altieri (2), Sybil Seitzinger (3), Barbara Turpin (1), (1) Rutgers University, New Brunswick, NJ, (2) Princeton University, Princeton, NJ, (3) International Geosphere-Biosphere Program, Stockholm, Sweden
| 12B.2
11:30 | Surface Tension of Atmospheric Inorganic Electrolyte Solutions at Low Temperatures and High Concentrations. CARI S. DUTCHER (1), Anthony S. Wexler (1), Simon L. Clegg (1,2), (1) University of California, Davis, (2) University of East Anglia, UK
| 12B.3
11:45 | Carbonyl-containing VOCs: Sources of “Brown Carbon” and Surface Tension Depression in Atmospheric Aerosols. V. FAYE MCNEILL, Allison N. Schwier, Neha Sareen, Zhi Li, Christian Tyroller, Columbia University
| 12B.4
12:00 | Enhancement of Nitrate Ion Photolysis by Bromide Ions. NICOLE K. RICHARDS (1), Lisa M. Wingen (1), Karen M. Callahan (1), Douglas J. Tobias (1), Barbara J. Finlayson-Pitts (1), (1) University of California, Irvine
| 12B.5
12:15 | Rate Measurements of Reactions Between Aldehydes and Amines Applied to Clouds and Aerosol. DAVID O. DE HAAN (1), Hiromi Takano (1), Vanessa A. Blasic (1), Jacob J. Turley (1), (1) University of San Diego
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12C NANOPARTICLES AND MATERIALS SYNTHESIS III
A 106
Heinz Fissan and Steven Girshick, chairs
12C.1
11:15 | Surface Processing of Noble Metal Nanoparticles in the Aerosol State. CHI-TUNG CHIANG, Jeffrey T. Roberts, Department of Chemistry, Purdue University
| 12C.2
11:30 | Impact of particle morphology on surface oxidation of Al nanoparticles synthesized via aerosol route: A kinetic Monte Carlo study. DIBYENDU MUKHERJEE (1), Matthew Wang (2), Bamin Khomami (1), (1) Material Research And Innovation Laboratory (MRAIL), Department of Chemical and Biomolecular Engineering, University of Tennessee, Knoxville. (2) Department of Chemical and Biological Engineering, University of Wisconsin, Madison.
| 12C.3
11:45 | Impact Dynamics of Aerosolized Colloidal Quantum-Dot Nanospheres. Lejun Qi, David J. Norris, Peter H. McMurry, STEVEN L. GIRSHICK, University of Minnesota
| 12C.4
12:00 | Design of Turbulent Flame Aerosol Reactors by Fluid and Particle Dynamics. ARTO GRÖHN (1), Beat Buesser (2), Jorma Jokiniemi (3), Sotiris Pratsinis (4), (1) ETH, Zürich, (2) ETH, Zürich, (3) University of Eastern Finland, Kuopio, (4) ETH, Zürich
| 12C.5
12:15 | Towards Standard Nanoparticle-Release Control Processes Representing Handling of Nanoparticle-Containing Liquid and Solid Materials. HEINZ FISSAN (1), Burkhard Stahlmecke (1), Christof Asbach (1),Thomas Kuhlbusch( 1), Karsten Wegner (2) , (1) Institute of Energy and Environmental Technology e.V. (IUTA), Duisburg, Germany (2) ETH-Zürich, Zürich, Switzerland
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12D INSTRUMENTATION AND METHODS IX
B 110/111/112
Greg Evans and Russell Long, chairs
12D.1
11:15 | Hydrophilic Black Carbon Soot for Aqueous Dispersion. THOMAS W. KIRCHSTETTER (1), Odelle Hadley (1), Jeffery Aguiar (2), (1) Lawrence Berkeley National Laboratory, Berkeley (2) University of California, Davis
| 12D.2
11:30 | Development and Evaluation of a Counter-Current Parallel-Plate Membrane Diffusion Denuder for the Removal of Gas-Phase Compounds from Vehicular Emissions. VASILEIOS PAPAPOSTOLOU (1), Joy E. Lawrence (1), Jack M. Wolfson (1), Stephen T. Ferguson (1), Petros Koutrakis (1), (1) Harvard School of Public Health, Boston
| 12D.3
11:45 | Comparison of particle sampling and collection methods for measurement of their physicochemical and toxicological properties. ZHI NING(1), Kalam Cheung(1), James J. Schauer(2) Arthur K. Cho(3), Ning Li(4), Constantinos Sioutas(1) , (1)Department of Civil and Environmental Engineering, University of Southern California (2)Department of Civil and Environmental Engineering, University of Wisconsin, Madison (3)Department of Molecular and Medical Pharmacology, University of California Los Angeles (4)Department of Medicine, University of California, Los Angeles
| 12D.4
12:00 | Characterization of the SOCAAR Coarse, Fine, and Ultrafine Particle Concentrator Systems. NEERAJ RASTOGI (1), Greg Evans (1), Mike Fila (2), Bruce Urch (2), Rob McWhinny (3), Jonathan Abbatt (3), Jeff Brook (4), Gang Lu (4), Peter Rehbein (1), Kelly Sabaliauskas (1), Cheol-Heon Jeong (1), Jay Slowik (3), Frances Silverman (2), (1) Southern Ontario Centre for Atmospheric Aerosol Research, University of Toronto (2) Gage Occupational and Environmental Health Unit, University of Toronto (3) Department of Chemistry, University of Toronto (4) Air Quality Research Division, Environment Canada
| 12D.5
12:15 | Optical diameter of mobility classified aerosol. KAARLE HÄMERI (1, 2), Antti J. Koivisto (2), Merja Järvelä (2), Jussi Lyyranen (3), Ari Auvinen (3), Jorma Jokiniemi (3, 4), (1) University of Helsinki, Finland, (2) Finnish Institute of Occupational Health, Finland, (3) VTT Technical Research Centre of Finland, (4) University of Eastern Finland
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12E HEALTH RELATED AEROSOLS VII
B 117/118/119
William Wilson and Lupita Montoya, chairs
12E.1
11:15 | Mitigation of Bioaerosol Droplets Generated during Coughing by Controlling the Viscoelastic and Surface Properties of Respiratory Airway Mucus. MD ANWARUL HASAN (1), Malcolm King (2), Carlos F. Lange (1) , (1) Department of Mechanical engineering, University of Alberta, Edmonton, Canada (2) Pulmonary Research Group, University of Alberta, Edmonton, Canada
| 12E.2
11:30 | Mass Transport of Deposited Aerosol Particles by Surface-to-Surface Contact and its Implications for Aerosol-Borne Disease Transmission. ANN MCDONAGH (1), Richard G. Sextro (2), Miriam A. Byrne (1), (1) National University of Ireland Galway (NUIG) (2) Lawrence Berkeley National Laboratory (LBNL)
| 12E.3
11:45 | Changes in airway oxidative status following exposure to traffic pollution. ROBY GREENWALD (1), Jeremy Sarnat (1), Priya Kewada (1), James Gooch (1), Colin Boswell (2), Fuyuen Yip (3), (1) Emory University, Atlanta, (2) Georgia Institute of Technology, Atlanta, (3) Centers for Disease Control and Prevention, Atlanta
| 12E.4
12:00 | Use of robotic measurement platform to assess children’s exposure to indoor bioaerosols. Zuocheng Wang (1), Stuart L. Shalat (2), Kathleen Black (2), Paul J. Lioy (2), Adam A. Stambler (1), Osiloke H. Emoekpere (1), Marta Hernandez (2), and GEDIMINAS MAINELIS (1), (1) Rutgers, the State University of New Jersey, New Brunswick, NJ, USA (2) Environmental and Occupational Health Sciences Institute, Piscataway, NJ, USA
| 12E.5
12:15 | Direct and macrophage-mediated induction of impaired insulin signaling in liver cells by TiO2. Diana Gurewich (1), Assaf Rudich (2), Yinon Rudich (1), (1) Weizmann Institute, Rehovot, Israel (2) Ben Gurion University, Beer Sheva, Israel
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