Grantee Research Project Results
Publications Details for Grant Number R840013
Automated model reduction for atmospheric chemical mechanisms
RFA:
Chemical Mechanisms to Address New Challenges in Air Quality Modeling (2019)
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Reference Type | Citation | Progress Report Year | Document Sources |
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Journal Article | Wiser F, Place B, Sen S, Pye HOT, Yang B, Westervelt DM, Henze DK, Fiore AM, McNeill VF. AMORE-Isoprene v1.0:A new reduced mechanism for gas-phase isoprene oxidation. Geoscientific Model Development Discussions 2022;2022:1–30 |
R840013 (2022) |
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Journal Article | Wiser F, Place BK, Sen S, Pye HOT, Yang B, Westervelt DM, Henze DK, Fiore AM, McNeill VF. AMORE-Isoprene v1.0: a new reduced mechanism for gas-phase isoprene oxidation. Geoscientific Model Development 2023;16:1801–21. doi:10.5194/gmd-16-1801-2023. |
R840013 (2023) |
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Paper | Yang B, Wiser FC, McNeill VF, Fiore AM, Tao M, Henze DK, Sen S, and Westervelt DM. Implementation of evaluation of the Automated Model Reduction (AMORE) version 1.1 isoprene oxidation mechanism in GEOS-Chem. Submitted to Environmental Science:Atmospheres. |
R840013 (2023) |
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Presentation | Wiser R, Siddhartha S, Westervelt D, Henze D, Fiore A, McNeill VF. AMORE: Automated Mechanism Reduction in Atmospheric Chemistry. American Association for Aerosol Research Annual Conference. October, 2021. |
R840013 (2021) |
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