1. Comparison of discrete, discrete-sectional, modal and moment models for aerosol dynamics simulations.
- Author
-
Zhang, Huang, Sharma, Girish, Dhawan, Sukrant, Dhanraj, David, Li, Zhichao, and Biswas, Pratim
- Subjects
- *
AEROSOLS , *GRAPHICAL user interfaces , *PARTICLE size distribution , *OPEN source software , *MINERAL dusts , *MICROBIOLOGICAL aerosols , *AIR quality , *PARTICLES - Abstract
An open source software (Aerosol and Air Quality Research Lab-Aerosol Dynamics Model, AAQRL-ADM) used for aerosol dynamics simulations is developed by including four models: discrete, discrete-sectional, method of moments, and modal. First, the mathematical description of these models as well as the effects of aerosol dynamics available in the software are reviewed, and a modal model is developed to use multiple modes to represent particle size spectrum. Second, the design of a working principle and user graphical interface (GUI) of AAQRL-ADM is described. Third, the models in AAQRL-ADM are validated by investigating the evolution of particle size distribution (PSD) in considering the effects of coagulation, condensation, and nucleation. Next, the trade-off between simulation accuracy and numerical efficiency is discussed for all of the four models, and a guide to choosing the appropriate aerosol dynamic model in practical simulation is presented. Finally, discrete-sectional, moment, and modal models are used to investigate the particle size distribution in a furnace aerosol reactor along a streamline, coupled with the velocity and temperature profiles. AAQRL-ADM is provided free of charge for the use of public researchers. Copyright © 2020 American Association for Aerosol Research [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF