Group reading

2023-2024年第一学期

李聪彧

DaiYW-2020-Investigation-of-interunit-dispersion-in-2D-street-canyons-A-scaled-outdoor-experiment-1

城市冠层过程的研究与进展_黄燕燕

多尺度下城市形态对空气质量的作用机制研究_周滔

广州市恩宁路永庆坊微改造探索_谭俊杰

DaiYuwei-2022-Scaled-outdoor-experimental-analysis-of-ventilation-and-interunit-dispersion-with-wind-and-buoyancy-effects-in-street-canyons

陈康林-2016-广州城市绿色空间与地表温度的格局关系研究

苗世光-2020-城市气象研究进展

DongyangWang-2021-Urbanthermalenvironmentandsurfaceenergybalancein3Dhigh-risecompacturbanmodelsScaled

耿树丰-2022-局地气候区视角下的城市热环境研究

马倩-2022-中国大城市具有建筑物分类的土地利用分类数据集构建研究

许亘昱-2023-规划控制要素视角下城市热环境的测度与优化——以广州中心城区为例

ChenGW-2020-The-influence-of-aspect-ratios-and-solar-heating-on-flow-and-ventilation-in-2D-street-canyons-by-scaled-outdoor-experiments

ChenGW-2021-Effects-of-urban-geometry-on-thermal-environment-in-2D-street-canyons

XingzhaoZhang-2023-Effect_of_Morphological_Indicators_on_the_Pedestri

游晓婕-2021-典型空间形态指标对广州市中央商务区热环境的影响

ChenGW-2020-Scaled-outdoor-experimental-studies-of-urban-thermal-environment-instreet-canyon

Marcelo-de-Carvalho-Alves-2013-Effects-of-Sky-Conditions-Measured-by-the-Clearness-Index-on-the-Estimation-of-Solar-Radiation-Using-a-Digital-Elevation-Model

肖登攀-2011-全球变化下地表反照率研究进展

Gabriele-Manoli-2019-Magnitude-of-urban-heat-islands-largely-explained-by-climate-and-population

Ullar-Rannik-1998-On-the-surface-layer-similarity-at-a-complex-forest-site

ZhengSQ-2023-Impact-of-urban-renewal-on-urban-heat-island-Study-of-renewal-processes-and-thermal-effects

LuMengrong-2023-Quantifying-cooling-benefits-of-cool-roofs-and-walls

DongQuanhua-2023-How-building-and-street-morphology-affect-CO2-emissions

DuoXu-2024-influence-of-urban-spatial-factors-on-surface-urban-heat-island-effect-and-its-spatial-heterogeneity1a-case-study-of-xian

范嘉乐

Guenther-等-1996-Estimates-of-regional-natural-volatile-organic-com

Guenther-等-1996-Isoprene-fluxes-measured-by-enclosure-relaxed-edd

Li-等-2017-Differences-between-measured-and-reported-volatile

Salameh-等-2016-Source-apportionment-vs.-emission-inventories-of-n

Jiang-等-2022-The-dynamic-multi-box-algorithm-of-atmospheric-env

Wang-Hongli-2020-JGR-Observation-Constrained-Aromatic-Emissions-in-Shanghai-China

Coggon-等-2021-Volatile-chemical-product-emissions-enhance-ozone-

Gao-等-2022-Technical-note-Dispersion-of-cooking-generated-ae

Lin-等-2023-Modeling-of-street-scale-pollutant-dispersion-by-c

Zhou-等-2023-An-Observational-Constraint-of-VOC-Emissions-for-A

Pfannerstill-等-2023-Comparison-between-Spatially-Resolved-Airborne-Flu

王然

Ren-等-2022-Characterizing-wind-fields-at-multiple-temporal-sc

WangAndYan-2015-A-Comparison-of-Two-Methods-on-the-Climatic-Effects-of

Zhang-等-Analysis-of-near-surface-wind-speed-change-in-Chin

Badach-等-2023-Spatial-aspects-of-urban-air-quality-management-Estimating-the-impact-of-

Zhang-和-Wang-2023-Homogenization-of-Observed-Surface-Wind-Speed-Base-on-Geostrophic-Wind-Theory-over-China-from-1970-to-2017

韩海涛等-2021-中国西北地区台站迁移对气候资料均一性影响的研究进展

Peng-等-2018-Wind-weakening-in-a-dense-high-rise-city-due-to-over-nearly-five-decades-of-urbanization

Yang-等-2023-Urban-microclimate-and-its-impact-on-built-environment-–-A-review

Zhang-等-2022-The-impact-of-the-building-morphology-on-microclimate-and-thermal-comfort-a-case-study-in-Beijing-

Gu-等-2023-A-computational-framework-for-the-simulation-of-wi

Mei-和-Liu-2023-Bi-objective-optimization-of-traffic-assignment-wi

Wang-等-2022-Identifying-urban-ventilation-corridors-through-qu

城市化对石家庄站近地面风速趋势的影响_卞韬

Jeanjean-等-2015-A-CFD-study-on-the-effectiveness-of-trees-to-dispe

Minola-等-2023-Climatology-of-near-surface-wind-speed-from-observ

1991—2021年山东省人体舒适度时空分布特征_高理

Liu-等-2022-Wind-environment-assessment-and-planning-of-urban-natural-ventilation-corridors-using-GIS-Shenzhen-as-a-case-study

Ramirez-等-2018-Validation-of-Simplified-Urban-Canopy-Aerodynami-Parametrizations-Using-a-Numerical-Simulation-of-an-Actual-Downtown-Area-

Dommenget-和-Latif-2002-A-Cautionary-Note-on-the-Interpretation-of-EOFs

Zhang-等-2022-Estimating-the-outdoor-environment-of-workers-vil

Zhou-等-2022-Spatio–temporal-evolution-and-factors-of-climate-c

陈可祎

Zhang-2020-Pedestrian-level-wind-environment-near-a-super-tall-building-with

zhang-2018-Pedestrian-level-wind-conditions-in-the-space-underneath-lift-up-buildings

Enes-Yasa-2016-Computational-evaluation-of-building-physics—The-effect-of-building

Willemsen-2022-Accuracy-of-assessment-of-wind-speed

Ding-2022-An-efficient-numerical-approach-for-simulating-airflows-around-an

Tominaga-2017-Steady-and-unsteady-RANS-simulations-of-pollutant-dispersion-around-isolated-cubical-buildings

ZhangXinyue-2020-PedestrianWindComfortNearASupe

Hefny-2008-Influence-of-Cell-Geometry-and-Mesh-Resolution-on-Large-Eddy-Simulation-Predictions-of-Flow-Around-a-Single-Building

Kim-2022-APR-Tall-building-effects-on-pedestrian-level-flow-and-pollutant-dispersion

Wang-2021-Comparison-of-hexahedral-tetrahedral-and-polyhedral-cells-for-reproducing-the-wind-field-around-an-isolated-building-by-LES

LiZhengtong-2020-Effects-of-frontal-area-density-on-outdoor-thermal-comfort-and-air-quality

Zhou-2021-Twisted-wind-effect-on-the-flo…

Zhou-2022-Aerodynamic-correlation-and-fl…

Hassan-2022-Unsteady-RANS-simulation-of-wind-flow-around-a-building-shape

Liu-2021-Numerical-study-of-stable-stratification-effects-on-the-wind-over-simplified-tall-building-models-using-large-eddy-simulations

MaHuixin-2022-CFD-simulation-of-flow-fields-and-pollutant-dispersion-around-a-cubic

Hooff-2017-On-the-accuracy-of-CFD-simulations-of__cross-ventilation-flows-for-a-generic-isolated-building_-comparison-of-RANS-LES__and-experiments

Shin-2021-Large-Eddy-Simulations-of-Stability-Varying-Atmospheric-Boundary-Layer-Flow-over-Isolated-Buildings

Yan-2015-Inflow-turbulence-generation-methods-with-large-eddy-simulation-for-wind-effects-on-tall-buildings

Pan-2023-Measurement-and-large-eddy-simulation-of-single-sided-natural-ventilation-in-urban-building-groups

Valger-2017-Numerical-study-of-interference-effects-in-atmospheric-air-flow-past-a-group-of-intricately-shaped-buildings

Du-2018-Effects-of-building-height-and-porosity-on-pedestrian-level-wind-comfort-in-a-high-density-urban-built-environment

Du-2017-New-criteria__for-assessing-low-wind-environment-at-pedestrian-level-in-Hong__Kong

Zhang-2017-Evaluation-of-pedestrian-wind-comfort-near-‘lift-up-buildings-with

Blocken-2009-Pedestrian-wind-comfort-around-a-large-football-stadium-in-an-urban