An Application of the RAMS/FLUENT System on the Multi-Scale Numerical Simulation of the Urban Surface Layer—A Preliminary Study

被引:0
|
作者
李磊 [1 ]
胡非 [2 ]
姜金华 [2 ]
程雪玲 [2 ]
机构
[1] Beijing Regional Climate Center Beijing Meteorological Bureau
[2] State Key Laboratory of Atmospheric Boundary Layer Physics and Atmospheric Chemistry Institute of Atmospheric Physics,Chinese Academy of Sciences
来源
AdvancesinAtmosphericSciences | 2007年 / 02期
关键词
multi-scale numerical simulation; urban surface layer (USL); urban canopy layer (UCL); RAMS/FLUENT system;
D O I
暂无
中图分类号
P463.3 [城市气候学];
学科分类号
摘要
The Regional Atmospheric Modeling System (RAMS) and the computational fluid dynamics (CFD) codes known as FLUENT are combinatorially applied in a multi-scale numerical simulation of the urban surface layer (USL). RAMS and FLUENT are combined as a multi-scale numerical modeling system, in which the RAMS simulated data are delivered to the computational model for FLUENT simulation in an offline way. Numerical simulations are performed to present and preliminarily validate the capability of the multi-scale modeling system, and the results show that the modeling system can reasonably provide information on the meteorological elements in an urban area from the urban scale to the city-block scale, especially the details of the turbulent flows within the USL.
引用
收藏
页码:271 / 280
页数:10
相关论文
共 50 条
  • [21] Multi-scale numerical simulation of impact failure for cylindrical CFRP
    Sawamura, Yusuke
    Yamazaki, Yuta
    Yoneyama, Satoru
    Koyanagi, Jun
    ADVANCED COMPOSITE MATERIALS, 2021, 30 (S1) : 19 - 38
  • [22] An effective numerical simulation model of multi-scale fractures in reservoir
    Su H.
    Lei Z.
    Li J.
    Gong B.
    Zhao W.
    Ju B.
    Zhang D.
    Qin H.
    Shiyou Xuebao/Acta Petrolei Sinica, 2019, 40 (05): : 587 - 593and634
  • [23] A multi-scale numerical simulation of the crystallisation and temperature field of glass
    Liu, Yongzhi
    Geng, Tie
    Turng, Lih-Sheng
    Wang, Xinchao
    Ren, Qinghai
    MOLECULAR PHYSICS, 2017, 115 (23) : 3024 - 3032
  • [24] Simulation-Aided Crowd Management: A Multi-scale Model for an Urban Case Study
    Crociani, Luca
    Laemmel, Gregor
    Vizzari, Giuseppe
    AGENT BASED MODELLING OF URBAN SYSTEMS, ABMUS 2016, 2017, 10051 : 151 - 171
  • [25] Numerical simulation of breaking waves by a multi-scale turbulence model
    Zhao, Q
    Armfield, S
    Tanimoto, K
    COASTAL ENGINEERING, 2004, 51 (01) : 53 - 80
  • [26] The multi-scale numerical modeling system for research on the relationship between urban planning and meteorological environment
    Fang, XY
    Jiang, WM
    Miao, SG
    Zhang, N
    Xu, M
    Ji, CP
    Chen, XY
    Wei, JM
    Wang, ZH
    Wang, XY
    ADVANCES IN ATMOSPHERIC SCIENCES, 2004, 21 (01) : 103 - 112
  • [27] The multi-scale numerical modeling system for research on the relationship between urban planning and meteorological environment
    Xiaoyi Fang
    Weimei Jiang
    Shiguang Miao
    Ning Zhang
    Min Xu
    Chongping Ji
    Xianyan Chen
    Jianmin Wei
    Zhihua Wang
    Xiaoyun Wang
    Advances in Atmospheric Sciences, 2004, 21 : 103 - 112
  • [28] Multi-scale Numerical Simulation and Experimental Study of High-Voltage Transmission Tower
    Liu, Chuncheng
    Meng, Xiangyu
    Zha, Chuanming
    2015 2ND ASIAN PACIFIC CONFERENCE ON ENERGY, ENVIRONMENT AND SUSTAINABLE DEVELOPMENT (APEESD 2015), 2015, : 594 - 601
  • [29] The Multi-Scale Numerical Modeling System for Research on the Relationship between Urban Planning and Meteorological Environment
    房小怡
    蒋维楣
    苗世光
    张宁
    徐敏
    季崇萍
    陈鲜艳
    魏建民
    王志华
    王晓云
    AdvancesinAtmosphericSciences, 2004, (01) : 103 - 112
  • [30] Multi-Scale Numerical Assessments of Urban Wind Resource Using Coupled WRF-BEP and RANS Simulation: A Case Study
    Mi, Lihua
    Han, Yan
    Shen, Lian
    Cai, Chunsheng
    Wu, Teng
    ATMOSPHERE, 2022, 13 (11)
12345