American Association for Aerosol Research - Abstract Submission

AAAR 32nd Annual Conference
September 30 - October 4, 2013
Oregon Convention Center
Portland, Oregon, USA

Abstracts by David Y. H. Pui


An Aerosol Detection Technique for Diesel Fuel Contaminants. KAI XIAO, Chenxing Pei, Jacob Swanson, David Kittelson, David Y. H. Pui, University of Minnesota

Behavior of Fibrous Filter Media Loaded with Agglomerate Particles. QISHENG OU, David Y. H. Pui, Da-Ren Chen, Washington University in St. Louis

Carbon Nanotube Penetration through Different Respirator and Nuclepore Filters: Models and Experiments. SHENG-CHIEH CHEN, Jing Wang, Yeon Kyoung Bahk, Heinz Fissan, David Y. H. Pui, University of Minnesota

Correlation between Number Concentration of Generated Particles and Concentration of Airborne Molecular Contamination at Different Relative Humidity and Residence Time under Soft X-ray Irradiation. CHANG HYUK KIM, Zhili Zuo, Hartmut Finger, Stefan Haep, Heinz Fissan, David Y. H. Pui, University of Minnesota

Filter Leak Detection by Various Gases Using the Schlieren Imaging Technique. SHIGERU KIMOTO, Lin Li, David Y. H. Pui, University of Minnesota

Filter Testing Using Technetium-99m Labeled Airborne Particles. TSZ YAN LING, Lin Li, Kai Xiao, Shigeru Kimoto, Bradley Humphrey, David Y. H. Pui, Jerry Froelich, University of Minnesota

Infectivity and Survivability of Airborne Viruses Generated from Human Saliva, Artificial Saliva, and Cell Culture Media. ZHILI ZUO, Thomas Kuehn, Aschalew Bekele, Harsha Verma, Sagar Goyal, Peter Raynor, David Y. H. Pui, University of Minnesota

Novel 3D Numerical Simulations to Calculate the Capacitance of Nanoparticle Aggregates with Necking Effect and Loose Agglomerates. LEO N.Y. CAO, Jing Wang, Heinz Fissan, Max L. Eggersdorfer, David Y. H. Pui, University of Minnesota

Predicting Porosity of Dust Cakes under General Conditions Via Brownian Simulation. GUSTAF LINDQUIST, Christopher Hogan Jr., David Y. H. Pui, University of Minnesota

The Application of the Universal Nanoparticle Analyzer for the Real-time Measurement of Engineered Nanoparticles in the Workplace. DREW THOMPSON, Jing Wang, David Y. H. Pui, University of Minnesota

The Splitter Bias Measurements for Calibration of Optical Particle Sizer (OPS) Using Wafer Surface Scanner (WSS) Method for 3 μm Particles at Ultra-Low Concentrations. SHIGERU KIMOTO, Lin Li, George Mulholland, Miles Owen, David Y. H. Pui, University of Minnesota