| 333 - 343 |
Size-dependent correction factors for absorption measurements using filter-based photometers: PSAP and COSMOS
Nakayama T, Kondo Y, Moteki N, Sahu LK, Kinase T, Kita K, Matsumi Y |
| 344 - 351 |
Aerosol electrical mobility spectrum analyzer
Ahn KH, Chung H |
| 352 - 363 |
Thermal inactivation of airborne viable Bacillus subtilis spores by short-term exposure in axially heated air flow
Grinshpun SA, Adhikari A, Li C, Reponen T, Yermakov M, Schoenitz M, Dreizin E, Trunov M, Mohan S |
| 364 - 372 |
Influence of substrate porosity and thickness on the collection efficiency of an impactor stage
Huang CH, Lin YC |
| 373 - 383 |
Impact of manikin motion on particle transport in the breathing zone
Spitzer IM, Marr DR, Glauser MN |
| 384 - 400 |
A new expression for spherical aerosol drag in slip flow regime
Moshfegh A, Shams M, Ahmadi G, Ebrahimi R |
| 401 - 412 |
Radiative transfer modeling of filter-based measurements of light absorption by particles: Importance of particle size dependent penetration depth
Moteki N, Kondo Y, Nakayama T, Kita K, Sahu LK, Ishigai T, Kinase T, Matsumi Y |
| 413 - 417 |
Analytical approximation to the fully developed concentration profile of diffusive aerosol particles in laminar flow in a circular tube
Alonso M, Alguacil FJ, Huang CH |
| 418 - 425 |
Comment on "Measurements of the temperature dependent diffusion coefficient of nanoparticles in the range of 295-600 K at atmospheric pressure" by VY Rudyak, SN Dubtsov, AM Baklanov
Lewis ER |
| 426 - 428 |
Reply to the comments on "Measurement of the temperature dependent diffusion coefficient of nanoparticles in the range of 295-600 K atmospheric pressure"
Rudyak VY, Dubtsov SN, Baklanov AM |
