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Environmental Science and Engineering Seminar

Wednesday, May 10, 2023
4:00pm to 5:00pm
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South Mudd 365
What is the aerosol state in the ambient atmosphere? Or: Particle-resolved modeling to tackle structural uncertainty in aerosol models
Nicole Riemer, University of Illinois at Urbana-Champaign,

The diversity in particle composition within the atmospheric aerosol is well-documented in field observations, but usually grossly oversimplified in chemistry transport models or earth system model. This is for good reasons--- to save computational cost---but comes with the trade-off of introducing considerable and difficult-to-quantify structural uncertainty in our predictions of aerosol composition, and by extension, of aerosol interactions with clouds and radiation. This presentation will illustrate how targeted particle-resolved simulations can be used to quantify structural uncertainty in more approximate aerosol models (i.e., sectional or modal models). The particle-resolved approach resolves the aerosol using individual computational particles that evolve in size and composition during their simulated lifetime in the atmosphere. I will present our model development of WRF-PartMC, a stochastic particle-resolved model embedded into the Weather Research and Forecasting Model (WRF) for explicit simulation of the aerosol state on the regional scale. The novel computational methods developed for this purpose include a particle-resolved emission inventory and stochastic algorithms for transport, coagulation, and particle removal. With its fully-resolved aerosol mixing state representation, WRF-PartMC allows for direct inter-model comparisons with traditional aerosol schemes used in regional and climate models. I will conclude with a framework to synthesize a picture of the ambient aerosol from models and observations. This focuses on suitable metrics to quantify mixing state and sampling strategies to determine these metrics that are accessible for both models and observations. Together, these provide a unique opportunity for "getting the right answer for the right reasons".

For more information, please contact Bronagh Glaser by email at bglaser@caltech.edu or visit Environmental Science and Engineering.