Development of four-dimensional variational assimilation system based on the GRAPES–CUACE adjoint model (GRAPES–CUACE-4D-Var V1.0) and its application in emission inversion
<p>In this study, a four-dimensional variational (4D-Var) data assimilation system was developed based on the GRAPES–CUACE (Global/Regional Assimilation and PrEdiction System – CMA Unified Atmospheric Chemistry Environmental Forecasting System) atmospheric chemistry model, GRAPES–CUACE adjoint...
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Copernicus Publications
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| Series: | Geoscientific Model Development |
| Online Access: | https://gmd.copernicus.org/articles/14/337/2021/gmd-14-337-2021.pdf |
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doaj-1798cffc219b4f54af85b1c64bf7ebc12021-01-22T12:12:11ZengCopernicus PublicationsGeoscientific Model Development1991-959X1991-96032021-01-011433735010.5194/gmd-14-337-2021Development of four-dimensional variational assimilation system based on the GRAPES–CUACE adjoint model (GRAPES–CUACE-4D-Var V1.0) and its application in emission inversionC. Wang0C. Wang1X. An2Q. Hou3Z. Sun4Y. Li5J. Li6Institute of Atmospheric Composition and Environmental Meteorology, Chinese Academy of Meteorological Sciences, Beijing 100081, ChinaDepartment of Atmospheric and Oceanic Sciences, Fudan University, Shanghai 200438, ChinaInstitute of Atmospheric Composition and Environmental Meteorology, Chinese Academy of Meteorological Sciences, Beijing 100081, ChinaInstitute of Atmospheric Composition and Environmental Meteorology, Chinese Academy of Meteorological Sciences, Beijing 100081, ChinaInstitute of Urban Meteorology, China Meteorological Administration, Beijing 100089, ChinaInstitute of Atmospheric Composition and Environmental Meteorology, Chinese Academy of Meteorological Sciences, Beijing 100081, ChinaInstitute of Atmospheric Composition and Environmental Meteorology, Chinese Academy of Meteorological Sciences, Beijing 100081, China<p>In this study, a four-dimensional variational (4D-Var) data assimilation system was developed based on the GRAPES–CUACE (Global/Regional Assimilation and PrEdiction System – CMA Unified Atmospheric Chemistry Environmental Forecasting System) atmospheric chemistry model, GRAPES–CUACE adjoint model and L-BFGS-B (extended limited-memory Broyden–Fletcher–Goldfarb–Shanno) algorithm (GRAPES–CUACE-4D-Var) and was applied to optimize black carbon (BC) daily emissions in northern China on 4 July 2016, when a pollution event occurred in Beijing. The results show that the newly constructed GRAPES–CUACE-4D-Var assimilation system is feasible and can be applied to perform BC emission inversion in northern China. The BC concentrations simulated with optimized emissions show improved agreement with the observations over northern China with lower root-mean-square errors and higher correlation coefficients. The model biases are reduced by 20 %–46 %. The validation with observations that were not utilized in the assimilation shows that assimilation makes notable improvements, with values of the model biases reduced by 1 %–36 %. Compared with the prior BC emissions, which are based on statistical data of anthropogenic emissions for 2007, the optimized emissions are considerably reduced. Especially for Beijing, Tianjin, Hebei, Shandong, Shanxi and Henan, the ratios of the optimized emissions to prior emissions are 0.4–0.8, indicating that the BC emissions in these highly industrialized regions have greatly reduced from 2007 to 2016. In the future, further studies on improving the performance of the GRAPES–CUACE-4D-Var assimilation system are still needed and are important for air pollution research in China.</p>https://gmd.copernicus.org/articles/14/337/2021/gmd-14-337-2021.pdf |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
C. Wang C. Wang X. An Q. Hou Z. Sun Y. Li J. Li |
| spellingShingle |
C. Wang C. Wang X. An Q. Hou Z. Sun Y. Li J. Li Development of four-dimensional variational assimilation system based on the GRAPES–CUACE adjoint model (GRAPES–CUACE-4D-Var V1.0) and its application in emission inversion Geoscientific Model Development |
| author_facet |
C. Wang C. Wang X. An Q. Hou Z. Sun Y. Li J. Li |
| author_sort |
C. Wang |
| title |
Development of four-dimensional variational assimilation system based on the GRAPES–CUACE adjoint model (GRAPES–CUACE-4D-Var V1.0) and its application in emission inversion |
| title_short |
Development of four-dimensional variational assimilation system based on the GRAPES–CUACE adjoint model (GRAPES–CUACE-4D-Var V1.0) and its application in emission inversion |
| title_full |
Development of four-dimensional variational assimilation system based on the GRAPES–CUACE adjoint model (GRAPES–CUACE-4D-Var V1.0) and its application in emission inversion |
| title_fullStr |
Development of four-dimensional variational assimilation system based on the GRAPES–CUACE adjoint model (GRAPES–CUACE-4D-Var V1.0) and its application in emission inversion |
| title_full_unstemmed |
Development of four-dimensional variational assimilation system based on the GRAPES–CUACE adjoint model (GRAPES–CUACE-4D-Var V1.0) and its application in emission inversion |
| title_sort |
development of four-dimensional variational assimilation system based on the grapes–cuace adjoint model (grapes–cuace-4d-var v1.0) and its application in emission inversion |
| publisher |
Copernicus Publications |
| series |
Geoscientific Model Development |
| issn |
1991-959X 1991-9603 |
| publishDate |
2021-01-01 |
| description |
<p>In this study, a four-dimensional variational (4D-Var) data
assimilation system was developed based on the GRAPES–CUACE (Global/Regional
Assimilation and PrEdiction System – CMA Unified Atmospheric
Chemistry Environmental Forecasting System) atmospheric
chemistry model, GRAPES–CUACE adjoint model and L-BFGS-B (extended limited-memory Broyden–Fletcher–Goldfarb–Shanno) algorithm
(GRAPES–CUACE-4D-Var) and was applied to optimize black carbon (BC) daily
emissions in northern China on 4 July 2016, when a pollution event
occurred in Beijing. The results show that the newly constructed
GRAPES–CUACE-4D-Var assimilation system is feasible and can be applied to
perform BC emission inversion in northern China. The BC concentrations
simulated with optimized emissions show improved agreement with the
observations over northern China with lower root-mean-square errors and
higher correlation coefficients. The model biases are reduced by 20 %–46 %.
The validation with observations that were not utilized in the assimilation
shows that assimilation makes notable improvements, with values of the model
biases reduced by 1 %–36 %. Compared with the prior BC emissions, which are
based on statistical data of anthropogenic emissions for 2007, the optimized
emissions are considerably reduced. Especially for Beijing, Tianjin, Hebei,
Shandong, Shanxi and Henan, the ratios of the optimized emissions to prior
emissions are 0.4–0.8, indicating that the BC emissions in these highly
industrialized regions have greatly reduced from 2007 to 2016. In the
future, further studies on improving the performance of the GRAPES–CUACE-4D-Var
assimilation system are still needed and are important for air pollution
research in China.</p> |
| url |
https://gmd.copernicus.org/articles/14/337/2021/gmd-14-337-2021.pdf |
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