Current Research: Integrating a Large Gas/Aqueous Chemistry Mechanism with Organic Condensation to Study Biofuel Air Pollution
Advisor: Mark Z. Jacobson
Conference Posters and Presentations:
Poster, December 2008: "Examining the Temperature Dependence of E85 Versus Gasoline
Emissions on Air Pollution with a Near-Explicit Chemical Mechanism" at the American Geophysical Union Annual Meeting in San Francisco, CA
Poster, December 2007: "Comparison of a 13,500 Reaction Near-Explicit Chemical Mechanism with Smog Chamber Data and its Implementation Into a Fast
Solver to Study the Ambient Sensativity of E85 versus Gasoline Emissions" at the American Geophysical Union Annual Meeting in San Francisco, CA
Presentation, October 2007: "Environmental Impacts of Controlling Greenhouse Gas Emissions - Examination of Proposed Strategies for Addressing Global
Warming and Air Pollution" at the Annual Meeting of the West Coast Section of the Air and Waste Management Association on Integration of Future Energy
Demand with California Global Warming Solutions Act in Glendale, CA
Presentation, December 2006: "Testing the Speed of a 13,500-Reaction Chemical Mechanism with SMVGEAR II and the Accuracy of the Mechanism Against
Smog Chamber Data" at the International Conference on Atmospheric Chemical Mechanisms at UC Davis, CA
Poster, July 2006: "Air Pollution Impacts of Ethanol (E85)" at the 2nd International Conference on Global Warming and the Next Ice Age and Aerosol
Uncertainties in Climate Predictions Conference in Santa Fe, NM