| 1 - 9 |
An approximate theoretical solution to particle coagulation and gelation using a method of moments
Wei JM |
| 10 - 15 |
Accuracy assessment of aerosol source apportionment by dual wavelength photoacoustic measurements
Simon KA, Ajtai T, Gulyaas G, Utry N, Pinter M, Szabo G, Bozoki Z |
| 16 - 31 |
Simulation of airborne nanoparticles transport, deposition and aggregation: Experimental validation of a CFD-QMOM approach
Guichard R, Belut E |
| 32 - 42 |
Effects of engine load and dilution conditions on gas-particle partitioning of primary organic aerosol emitted from a light-duty diesel engine
Guan C, Cheung CS, Li XL, Li DF, Huang Z |
| 43 - 57 |
Real-time aerosol measurements in pilot scale coal fired postcombustion CO2 capture
Saha C, Irvin JH |
| 58 - 65 |
Effects of human activities on concentrations of culturable bioaerosols in indoor air environments
Heo KJ, Lim CE, Kim HB, Lee BU |
| 66 - 78 |
Characterization of an aerosol microconcentrator for analysis using microscale optical spectroscopies
Zheng LN, Kulkarni P, Zavvos K, Liang HY, Birch ME, Dionysiou DD |
| 79 - 89 |
The effect of aerosol size distribution and concentration on the removal efficiency of an acoustic aerosol removal system
Yuen WT, Fu SC, Chao CYH |
| 90 - 99 |
Optimization and application of propidium monoazide-quantitative PCR method for viable bacterial bioaerosols
Chang CW, Hung NT, Chen NT |
| 100 - 105 |
Driving a portable high resolution nanoDMA with a small batteryoperated vacuum cleaner blower
Perez-Lorenzo LJ, de la Mora JF |
| 106 - 122 |
Direct-forcing immersed boundary - non-Newtonian lattice Boltzmann method for transient non-isothermal sedimentation
Delouei AA, Nazari M, Kayhani MH, Ahmadi G |
| 123 - 140 |
Application of the characteristics-based sectional method to spatially varying aerosol formation and transport
Frederix EMA, Kuczaj AK, Nordlund M, Veldman AEP, Geurts BJ |
