论文信息 - Effect of Flow-induced Relative Humidity Changes on Size Cuts for Sulfuric Acid Droplets in the Microorifice Uniform Deposit Impactor (MOUDI)

Effect of Flow-induced Relative Humidity Changes on Size Cuts for Sulfuric Acid Droplets in the Microorifice Uniform Deposit Impactor (MOUDI)

The effect of flow-induced relative humidity changes on cut sizes of aqueous sulfuric acid particles in a multi-nozzle microrifice uniform deposit impactor (MOUDI) was studied theoretically and experimentally. In the theoretical study, the differential equation of vapor transport to particles including the Fuchs correction, the Kelvin effect, sulfuric acid solution properties, and temperature depression was integrated along the particle critical trajectory to determine the cut size at various relative humidities. Results show that aqueous sulfuric acid particles first shrink owing to evaporation caused by pressure drop, then grow in the jet owing to condensation caused by aerodynamic cooling. The study was confined to stages 7 (50% cut size = 0.122 μm) and 8 (50% cut size = 0.047 μm) where humidity variations are greatest. It was found that the net size change of aqueous sulfuric acid droplets is negligible when the inlet relative humidity is < 80% because of the moderate pressure drop across nozzles and ...

[1] L. Sabinina,et al. Die Oberflächenspannung des Systems Schwefelsäure—Wasser , 1935 .

[2] A. Gittins. Effects of heat-treatment on the high-temperature ductility and fracture of 20 Cr/25 Ni/Nb stabilised austenitic steel , 1970 .

[3] N. Fuchs,et al. HIGH-DISPERSED AEROSOLS , 1971 .

[4] P. Winkler. Relative humidity and the adhesion of atmospheric particles to the plates of impactors , 1974 .

[5] David Y. H. Pui,et al. Equilibrium bipolar charge distribution of aerosols , 1974 .

[6] Richard C. Flagan,et al. Design and evaluation of new low-pressure impactor. I , 1978 .

[7] Condensation Rate of Trace Vapor on Knudsen Aerosols from the Solution of the Boltzmann Equation , 1979 .

[8] J. J. Collins,et al. Design and evaluation of a new low-pressure impactor. 2 , 1979 .

[9] G. Zebel,et al. Fundamentals of aerosol science , 1979 .

[10] K. Willeke,et al. Generation of aerosols and facilities for exposure experiments , 1980 .

[11] E. Davis. Transport Phenomena with Single Aerosol Particles , 1982 .

[12] R. Flagan,et al. Distortion of Size Distributions by Condensation and Evaporation in Aerosol Instruments , 1987 .

[13] M. Stolzenburg,et al. On the sensitivity of particle size to relative humidity for Los Angeles aerosols , 1989 .

[14] S. Patankar. Numerical Heat Transfer and Fluid Flow , 2018, Lecture Notes in Mechanical Engineering.