Literature DB >> 30147851

A framework for expanding aqueous chemistry in the Community Multiscale Air Quality (CMAQ) model version 5.1.

Kathleen M Fahey1, Annmarie G Carlton2, Havala O T Pye1, Jaemeen Baek3, William T Hutzell1, Charles O Stanier4, Kirk R Baker5, K Wyat Appel1, Mohammed Jaoui6, John H Offenberg6.   

Abstract

This paper describes the development and implementation of an extendable aqueous-phase chemistry option (AQCHEM -KMT(I)) for the Community Multiscale Air Quality (CMAQ) modeling system, version 5.1. Here, the Kinetic PreProcessor (KPP), version 2.2.3, is used to generate a Rosenbrock solver (Rodas3) to integrate the stiff system of ordinary differential equations (ODEs) that describe the mass transfer, chemical kinetics, and scavenging processes of CMAQ clouds. CMAQ's standard cloud chemistry module (AQCHEM) is structurally limited to the treatment of a simple chemical mechanism. This work advances our ability to test and implement more sophisticated aqueous chemical mechanisms in CMAQ and further investigate the impacts of microphysical parameters on cloud chemistry. Box model cloud chemistry simulations were performed to choose efficient solver and tolerance settings, evaluate the implementation of the KPP solver, and assess the direct impacts of alternative solver and kinetic mass transfer on predicted concentrations for a range of scenarios. Month-long CMAQ simulations for winter and summer periods over the US reveal the changes in model predictions due to these cloud module updates within the full chemical transport model. While monthly average CMAQ predictions are not drastically altered between AQCHEM and AQCHEM-KMT, hourly concentration differences can be significant. With added in-cloud secondary organic aerosol (SOA) formation from biogenic epoxides (AQCHEM-KMTI), normalized mean error and bias statistics are slightly improved for 2-methyltetrols and 2-methylglyceric acid at the Research Triangle Park measurement site in North Carolina during the Southern Oxidant and Aerosol Study (SOAS) period. The added in-cloud chemistry leads to a monthly average increase of 11-18 % in "cloud" SOA at the surface in the eastern United States for June 2013.

Entities:  

Year:  2017        PMID: 30147851      PMCID: PMC6104655          DOI: 10.5194/gmd-10-1587-2017

Source DB:  PubMed          Journal:  Geosci Model Dev        ISSN: 1991-959X            Impact factor:   6.135


  18 in total

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3.  Evolution of organic aerosols in the atmosphere.

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Authors:  Hartmut Herrmann; Thomas Schaefer; Andreas Tilgner; Sarah A Styler; Christian Weller; Monique Teich; Tobias Otto
Journal:  Chem Rev       Date:  2015-05-07       Impact factor: 60.622

5.  Aqueous organic chemistry in the atmosphere: sources and chemical processing of organic aerosols.

Authors:  V Faye McNeill
Journal:  Environ Sci Technol       Date:  2015-01-22       Impact factor: 9.028

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Authors:  Tadeusz E Kleindienst; Michael Lewandowski; John H Offenberg; Edward O Edney; Mohammed Jaoui; Mei Zheng; Xiang Ding; Eric S Edgerton
Journal:  J Air Waste Manag Assoc       Date:  2010-11       Impact factor: 2.235

8.  Aqueous-phase secondary organic aerosol and organosulfate formation in atmospheric aerosols: a modeling study.

Authors:  V Faye McNeill; Joseph L Woo; Derek D Kim; Allison N Schwier; Neal J Wannell; Andrew J Sumner; Joseph M Barakat
Journal:  Environ Sci Technol       Date:  2012-07-25       Impact factor: 9.028

9.  Reactive uptake of an isoprene-derived epoxydiol to submicron aerosol particles.

Authors:  Cassandra J Gaston; Theran P Riedel; Zhenfa Zhang; Avram Gold; Jason D Surratt; Joel A Thornton
Journal:  Environ Sci Technol       Date:  2014-09-24       Impact factor: 9.028

10.  Global chemical composition of ambient fine particulate matter for exposure assessment.

Authors:  Sajeev Philip; Randall V Martin; Aaron van Donkelaar; Jason Wai-Ho Lo; Yuxuan Wang; Dan Chen; Lin Zhang; Prasad S Kasibhatla; Siwen Wang; Qiang Zhang; Zifeng Lu; David G Streets; Shabtai Bittman; Douglas J Macdonald
Journal:  Environ Sci Technol       Date:  2014-11-06       Impact factor: 9.028
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Authors:  Havala O T Pye; Athanasios Nenes; Becky Alexander; Andrew P Ault; Mary C Barth; Simon L Clegg; Jeffrey L Collett; Kathleen M Fahey; Christopher J Hennigan; Hartmut Herrmann; Maria Kanakidou; James T Kelly; I-Ting Ku; V Faye McNeill; Nicole Riemer; Thomas Schaefer; Guoliang Shi; Andreas Tilgner; John T Walker; Tao Wang; Rodney Weber; Jia Xing; Rahul A Zaveri; Andreas Zuend
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6.  The Community Multiscale Air Quality (CMAQ) model versions 5.3 and 5.3.1: system updates and evaluation.

Authors:  K Wyat Appel; Jesse O Bash; Kathleen M Fahey; Kristen M Foley; Robert C Gilliam; Christian Hogrefe; William T Hutzell; Daiwen Kang; Rohit Mathur; Benjamin N Murphy; Sergey L Napelenok; Christopher G Nolte; Jonathan E Pleim; George A Pouliot; Havala O T Pye; Limei Ran; Shawn J Roselle; Golam Sarwar; Donna B Schwede; Fahim I Sidi; Tanya L Spero; David C Wong
Journal:  Geosci Model Dev       Date:  2021-05-20       Impact factor: 6.135

7.  Vapor-pressure pathways initiate but hydrolysis products dominate the aerosol estimated from organic nitrates.

Authors:  Azimeh Zare; Kathleen M Fahey; Golam Sarwar; Ronald C Cohen; Havala O T Pye
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8.  Role of sea fog over the Yellow Sea on air quality with the direct effect of aerosols.

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9.  Study on the variation of air pollutant concentration and its formation mechanism during the COVID-19 period in Wuhan.

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