A Study on Microscale Wind Simulations with a Coupled WRF–CFD Model in the Chongli Mountain Region of Hebei Province, China

A Study on Microscale Wind Simulations with a Coupled WRF–CFD Model in the Chongli Mountain Region of Hebei Province, China

To ensure successful hosting of the 2022 Olympic Winter Games, a comprehensive understanding of the wind field characteristics in the Chongli Mountain region is essential. The purpose of this research was to accurately simulate the microscale wind in the Chongli Mountain region. Coupling the Weather...

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Bibliographic Details
Main Authors: Shaohui Li, Xuejin Sun, Shan Zhang, Shijun Zhao, Riwei Zhang
Format: Article
Language:English
Published: MDPI AG 2019-11-01
Series:Atmosphere
Subjects:
wrf-cfd model
microscale
wind field
physical schemes
coupling methods
chongli mountain
Online Access:https://www.mdpi.com/2073-4433/10/12/731
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spelling doaj-021eeaab53b544adbb289583fd1a0ffe2020-11-24T23:58:44ZengMDPI AGAtmosphere2073-44332019-11-01101273110.3390/atmos10120731atmos10120731A Study on Microscale Wind Simulations with a Coupled WRF–CFD Model in the Chongli Mountain Region of Hebei Province, ChinaShaohui Li0Xuejin Sun1Shan Zhang2Shijun Zhao3Riwei Zhang4College of Meteorology and Oceanography, National University of Defense Technology, Nanjing 211101, ChinaCollege of Meteorology and Oceanography, National University of Defense Technology, Nanjing 211101, ChinaHebei Province Meteorological Bureau, Shijiazhuang 050000, ChinaCollege of Meteorology and Oceanography, National University of Defense Technology, Nanjing 211101, ChinaState Key Laboratory of Aerospace, Xi’an 710000, ChinaTo ensure successful hosting of the 2022 Olympic Winter Games, a comprehensive understanding of the wind field characteristics in the Chongli Mountain region is essential. The purpose of this research was to accurately simulate the microscale wind in the Chongli Mountain region. Coupling the Weather Research and Forecasting (WRF) model with a computational fluid dynamics (CFD) model is a method for simulating the microscale wind field over complex terrain. The performance of the WRF-CFD model in the Chongli Mountain region was enhanced from two aspects. First, as WRF offers multiple physical schemes, a sensitivity analysis was performed to evaluate which scheme provided the best boundary condition for CFD. Second, to solve the problem of terrain differences between the WRF and CFD models, an improved method capable of coupling these two models is proposed. The results show that these improvements can enhance the performance of the WRF-CFD model and produce a more accurate microscale simulation of the wind field in the Chongli Mountain region.https://www.mdpi.com/2073-4433/10/12/731wrf-cfd modelmicroscalewind fieldphysical schemescoupling methodschongli mountain
collection DOAJ
language English
format Article
sources DOAJ
author Shaohui Li
Xuejin Sun
Shan Zhang
Shijun Zhao
Riwei Zhang
spellingShingle Shaohui Li
Xuejin Sun
Shan Zhang
Shijun Zhao
Riwei Zhang
A Study on Microscale Wind Simulations with a Coupled WRF–CFD Model in the Chongli Mountain Region of Hebei Province, China
Atmosphere
wrf-cfd model
microscale
wind field
physical schemes
coupling methods
chongli mountain
author_facet Shaohui Li
Xuejin Sun
Shan Zhang
Shijun Zhao
Riwei Zhang
author_sort Shaohui Li
title A Study on Microscale Wind Simulations with a Coupled WRF–CFD Model in the Chongli Mountain Region of Hebei Province, China
title_short A Study on Microscale Wind Simulations with a Coupled WRF–CFD Model in the Chongli Mountain Region of Hebei Province, China
title_full A Study on Microscale Wind Simulations with a Coupled WRF–CFD Model in the Chongli Mountain Region of Hebei Province, China
title_fullStr A Study on Microscale Wind Simulations with a Coupled WRF–CFD Model in the Chongli Mountain Region of Hebei Province, China
title_full_unstemmed A Study on Microscale Wind Simulations with a Coupled WRF–CFD Model in the Chongli Mountain Region of Hebei Province, China
title_sort study on microscale wind simulations with a coupled wrf–cfd model in the chongli mountain region of hebei province, china
publisher MDPI AG
series Atmosphere
issn 2073-4433
publishDate 2019-11-01
description To ensure successful hosting of the 2022 Olympic Winter Games, a comprehensive understanding of the wind field characteristics in the Chongli Mountain region is essential. The purpose of this research was to accurately simulate the microscale wind in the Chongli Mountain region. Coupling the Weather Research and Forecasting (WRF) model with a computational fluid dynamics (CFD) model is a method for simulating the microscale wind field over complex terrain. The performance of the WRF-CFD model in the Chongli Mountain region was enhanced from two aspects. First, as WRF offers multiple physical schemes, a sensitivity analysis was performed to evaluate which scheme provided the best boundary condition for CFD. Second, to solve the problem of terrain differences between the WRF and CFD models, an improved method capable of coupling these two models is proposed. The results show that these improvements can enhance the performance of the WRF-CFD model and produce a more accurate microscale simulation of the wind field in the Chongli Mountain region.
topic wrf-cfd model
microscale
wind field
physical schemes
coupling methods
chongli mountain
url https://www.mdpi.com/2073-4433/10/12/731
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AT xuejinsun astudyonmicroscalewindsimulationswithacoupledwrfcfdmodelinthechonglimountainregionofhebeiprovincechina
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AT riweizhang astudyonmicroscalewindsimulationswithacoupledwrfcfdmodelinthechonglimountainregionofhebeiprovincechina
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AT riweizhang studyonmicroscalewindsimulationswithacoupledwrfcfdmodelinthechonglimountainregionofhebeiprovincechina
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