- Author
- Megaridis, C. M. | Dobbins, R. A.
- Title
- Bimodal Integral Solution of the Dynamic Equation for an Aerosol Undergoing Simultaneous Particle Inception and Coagulation.
- Coporate
- Brown Univ., Providence, RI
- Journal
- Aerosol Science and Technology, Vol. 12, 240-255, 1990
- Sponsor
- National Institute of Standards and Technology, Gaithersburg, MD
- Contract
- NIST-GRANT-NB83-NADA4025
- Keywords
- aerosols | equations | coagulation | free molecular regime
- Identifiers
- bimodal solution formulation; particle formation and growth; particle volume distribution function (PVDF); MAEROS code
- Abstract
- A model is developed from the general aerosol dynamic equation, using a bimodal intergal formulation that includes particle formation and growth by coagulation in the free molecular regime. The particle inception mode accounts for the introduction of newly formed particles which, through coagulative collisions with one another, constitute the source of the particles in the growth mode. A numerical solution for the system of the first three moments of the particle volume distribution function is discussed, under the assumption of a logarithimic-normal behavior of the two modes of the size distribution function. The bimodal integral solution is subject to a detailed comparison with the MAEROS sectional model for the case of an aerosol that undergoes free molecular coagulation occuring simultaneously with particle formation by a Gaussian source pulse, under flamelike conditions.