Chong Peng
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A review of the theory and practice of regional resilience
C Peng, M Yuan, C Gu, Z Peng, T Ming
Sustainable Cities and Society 29, 86-96, 2017
Impacts of traffic tidal flow on pollutant dispersion in a non-uniform urban street canyon
T Ming, W Fang, C Peng, C Cai, R De Richter, MH Ahmadi, Y Wen
Atmosphere 9 (3), 82, 2018
Numerical analysis on the thermal environment of an old city district during urban renewal
C Peng, T Ming, Y Tao, Z Peng
Energy and Buildings 89, 18-31, 2015
The effect of exhaust emissions from a group of moving vehicles on pollutant dispersion in the street canyons
T Shi, T Ming, Y Wu, C Peng, Y Fang
Building and Environment 181, 107120, 2020
Effect of moving vehicles on pollutant dispersion in street canyon by using dynamic mesh updating method
Q Wang, W Fang, R de Richter, C Peng, T Ming
Journal of Wind Engineering and Industrial Aerodynamics 187, 15-25, 2019
Review on pollutant dispersion in urban areas-part A: Effects of mechanical factors and urban morphology
Z Li, T Ming, S Liu, C Peng, R de Richter, W Li, H Zhang, CY Wen
Building and Environment 190, 107534, 2021
System dynamics modelling of urbanization under energy constraints in China
C Gu, X Ye, Q Cao, W Guan, C Peng, Y Wu, W Zhai
Scientific reports 10 (1), 1-16, 2020
Numerical simulation on the effect of vehicle movement on pollutant dispersion in urban street
Z Li, J Xu, T Ming, C Peng, J Huang, T Gong
Procedia Engineering 205, 2303-2310, 2017
Modeling Thermal Comfort and Optimizing Local Renewal Strategies—A Case Study of Dazhimen Neighborhood in Wuhan City
C Peng, T Ming, J Cheng, Y Wu, ZR Peng
Sustainability 7 (3), 3109-3128, 2015
Mitigating air pollution strategies based on solar chimneys
Y Liu, T Ming, C Peng, Y Wu, W Li, R De Richter, N Zhou
Solar Energy 218, 11-27, 2021
The effect of turbulence induced by different kinds of moving vehicles in street canyons
C Cai, T Ming, W Fang, R De Richter, C Peng
Sustainable Cities and Society 54, 102015, 2020
Numerical simulation of pollutant dispersion characteristics in a three-dimensional urban traffic system
H Dou, T Ming, Z Li, C Peng, C Zhang, X Fu
Atmospheric Pollution Research 9 (4), 735-746, 2018
Review on pollutant dispersion in urban areas-part B: Local mitigation strategies, optimization framework, and evaluation theory
Z Li, T Ming, T Shi, H Zhang, CY Wen, X Lu, X Dong, Y Wu, R De Richter, ...
Building and Environment 198, 107890, 2021
Assessment of pollutant dispersion in urban street canyons based on field synergy theory
T Ming, T Shi, H Han, S Liu, Y Wu, W Li, C Peng
Atmospheric Pollution Research 12 (2), 341-356, 2021
A Zero Energy Lab as a validation testbed: Concept, features, and performance
T Ming, D Chen, SN Toudeshki, S Talele, GT Checketts, N Hasib, ...
International Journal of Hydrogen Energy 40 (37), 12854-12867, 2015
Pollutant dispersion in built environment
T Ming, C Peng, T Gong, Z Li
Springer Singapore, 2017
Perspectives on removal of atmospheric methane
T Ming, W Li, Q Yuan, P Davies, R De Richter, C Peng, Q Deng, Y Yuan, ...
Advances in Applied Energy, 100085, 2022
Improvement of air quality and thermal environment in an old city district by constructing wind passages
C Peng, C Li, Z Zou, S Shen, D Sun
Sustainability 7 (9), 12672-12692, 2015
Using multi-agent system for residential expansion models—A case study of Hongshan District, Wuhan City
C Peng, J Cheng
Chinese geographical science 17 (3), 210-215, 2007
Porous media: A faster numerical simulation method applicable to real urban communities
H Wang, C Peng, W Li, C Ding, T Ming, N Zhou
Urban Climate 38, 100865, 2021
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Articles 1–20