The description and validation of the computationally Efficient CH<sub>4</sub>–CO–OH (ECCOHv1.01) chemistry module for 3-D model applications

The description and validation of the computationally Efficient CH<sub>4</sub>–CO–OH (ECCOHv1.01) chemistry module for 3-D model applications

We present the Efficient CH<sub>4</sub>–CO–OH (ECCOH) chemistry module that allows for the simulation of the methane, carbon monoxide, and hydroxyl radical (CH<sub>4</sub>–CO–OH) system, within a chemistry climate model, carbon cycle model, or Earth system model. The computat...

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Main Authors: Y. F. Elshorbany, B. N. Duncan, S. A. Strode, J. S. Wang, J. Kouatchou
Format: Article
Language:English
Published: Copernicus Publications 2016-02-01
Series:Geoscientific Model Development
Online Access:http://www.geosci-model-dev.net/9/799/2016/gmd-9-799-2016.pdf
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spelling doaj-76fcd8a793434019b8c2cc4886aa0c8a2020-11-25T00:00:32ZengCopernicus PublicationsGeoscientific Model Development1991-959X1991-96032016-02-019279982210.5194/gmd-9-799-2016The description and validation of the computationally Efficient CH<sub>4</sub>–CO–OH (ECCOHv1.01) chemistry module for 3-D model applicationsY. F. Elshorbany0B. N. Duncan1S. A. Strode2J. S. Wang3J. Kouatchou4NASA Goddard Space Flight Center, Greenbelt, Maryland, USANASA Goddard Space Flight Center, Greenbelt, Maryland, USANASA Goddard Space Flight Center, Greenbelt, Maryland, USANASA Goddard Space Flight Center, Greenbelt, Maryland, USANASA Goddard Space Flight Center, Greenbelt, Maryland, USAWe present the Efficient CH<sub>4</sub>–CO–OH (ECCOH) chemistry module that allows for the simulation of the methane, carbon monoxide, and hydroxyl radical (CH<sub>4</sub>–CO–OH) system, within a chemistry climate model, carbon cycle model, or Earth system model. The computational efficiency of the module allows many multi-decadal sensitivity simulations of the CH<sub>4</sub>–CO–OH system, which primarily determines the global atmospheric oxidizing capacity. This capability is important for capturing the nonlinear feedbacks of the CH<sub>4</sub>–CO–OH system and understanding the perturbations to methane, CO, and OH, and the concomitant impacts on climate. We implemented the ECCOH chemistry module in the NASA GEOS-5 atmospheric global circulation model (AGCM), performed multiple sensitivity simulations of the CH<sub>4</sub>–CO–OH system over 2 decades, and evaluated the model output with surface and satellite data sets of methane and CO. The favorable comparison of output from the ECCOH chemistry module (as configured in the GEOS-5 AGCM) with observations demonstrates the fidelity of the module for use in scientific research.http://www.geosci-model-dev.net/9/799/2016/gmd-9-799-2016.pdf
collection DOAJ
language English
format Article
sources DOAJ
author Y. F. Elshorbany
B. N. Duncan
S. A. Strode
J. S. Wang
J. Kouatchou
spellingShingle Y. F. Elshorbany
B. N. Duncan
S. A. Strode
J. S. Wang
J. Kouatchou
The description and validation of the computationally Efficient CH<sub>4</sub>–CO–OH (ECCOHv1.01) chemistry module for 3-D model applications
Geoscientific Model Development
author_facet Y. F. Elshorbany
B. N. Duncan
S. A. Strode
J. S. Wang
J. Kouatchou
author_sort Y. F. Elshorbany
title The description and validation of the computationally Efficient CH<sub>4</sub>–CO–OH (ECCOHv1.01) chemistry module for 3-D model applications
title_short The description and validation of the computationally Efficient CH<sub>4</sub>–CO–OH (ECCOHv1.01) chemistry module for 3-D model applications
title_full The description and validation of the computationally Efficient CH<sub>4</sub>–CO–OH (ECCOHv1.01) chemistry module for 3-D model applications
title_fullStr The description and validation of the computationally Efficient CH<sub>4</sub>–CO–OH (ECCOHv1.01) chemistry module for 3-D model applications
title_full_unstemmed The description and validation of the computationally Efficient CH<sub>4</sub>–CO–OH (ECCOHv1.01) chemistry module for 3-D model applications
title_sort description and validation of the computationally efficient ch<sub>4</sub>–co–oh (eccohv1.01) chemistry module for 3-d model applications
publisher Copernicus Publications
series Geoscientific Model Development
issn 1991-959X
1991-9603
publishDate 2016-02-01
description We present the Efficient CH<sub>4</sub>–CO–OH (ECCOH) chemistry module that allows for the simulation of the methane, carbon monoxide, and hydroxyl radical (CH<sub>4</sub>–CO–OH) system, within a chemistry climate model, carbon cycle model, or Earth system model. The computational efficiency of the module allows many multi-decadal sensitivity simulations of the CH<sub>4</sub>–CO–OH system, which primarily determines the global atmospheric oxidizing capacity. This capability is important for capturing the nonlinear feedbacks of the CH<sub>4</sub>–CO–OH system and understanding the perturbations to methane, CO, and OH, and the concomitant impacts on climate. We implemented the ECCOH chemistry module in the NASA GEOS-5 atmospheric global circulation model (AGCM), performed multiple sensitivity simulations of the CH<sub>4</sub>–CO–OH system over 2 decades, and evaluated the model output with surface and satellite data sets of methane and CO. The favorable comparison of output from the ECCOH chemistry module (as configured in the GEOS-5 AGCM) with observations demonstrates the fidelity of the module for use in scientific research.
url http://www.geosci-model-dev.net/9/799/2016/gmd-9-799-2016.pdf
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