Manuscript for Building and Environment 1 A Zonal Model for Assessing Street Canyon Air Temperature 2 of High-Density Cities 3
暂无分享,去创建一个
[1] M. Bruse,et al. Simulating surface–plant–air interactions inside urban environments with a three dimensional numerical model , 1998 .
[2] W. Dols,et al. CONTAMW 2.0 User Manual , 2002 .
[3] P. Alam. ‘K’ , 2021, Composites Engineering.
[4] John S. Irwin,et al. A theoretical variation of the wind profile power-law exponent as a function of surface roughness and stability , 1979 .
[5] Marjorie Musy,et al. Generation of a zonal model to simulate natural convection in a room with a radiative/convective heater , 2001 .
[6] Aliashim Albani,et al. Wind Energy Potential and Power Law Indexes Assessment for Selected Near-Coastal Sites in Malaysia , 2017 .
[7] R. Belarbi,et al. Modelling air flows around buildings in urban environment , 2006 .
[8] T. Oke. City size and the urban heat island , 1973 .
[9] Christian Inard,et al. Prediction of air temperature distribution in buildings with a zonal model , 1996 .
[10] E. Johansson. Influence of urban geometry on outdoor thermal comfort in a hot dry climate: A study in Fez, Morocco , 2006 .
[11] Servando Álvarez Domínguez,et al. Modelling microclimate in urban environments and assessing its influence on the performance of surrounding buildings , 2004 .
[12] Cheuk Ming Mak,et al. CFD simulation of flow in a long street canyon under a perpendicular wind direction: Evaluation of three computational settings , 2017 .
[13] Yuguo Li,et al. The impact of building density and building height heterogeneity on average urban albedo and street surface temperature , 2015 .
[14] E. Bozonnet,et al. Cool materials impact at district scale—Coupling building energy and microclimate models , 2014 .
[15] Erich J. Plate,et al. Model study of the development of boundary layers above urban areas , 1992 .
[16] 류재현. 세계화(globalization)와 안보 연구 , 2008 .
[17] An-Shik Yang,et al. Enhancement of city breathability with half open spaces in ideal urban street canyons , 2017 .
[18] D. Etheridge. Natural Ventilation of Buildings Theory Measurement and Design , 2011 .
[19] Cheng-Hsin Chang,et al. Numerical and physical modeling of bluff body flow and dispersion in urban street canyons , 2001 .
[20] Yuguo Li,et al. Prediction of natural ventilation in buildings with large openings , 2000 .
[21] Street Canyon Geometry Effects on Microclimate and Comfort; A Case Study in Thessaloniki , 2017 .
[22] Ahmed Memon Rizwan,et al. A review on the generation, determination and mitigation of Urban Heat Island , 2008 .
[23] T. Williamson,et al. Comments on the correct specification of the analytical CTTC model for predicting the urban canopy layer temperature , 2006 .
[24] Baizhan Li,et al. A simplified mathematical model for urban microclimate simulation , 2011 .
[25] E. Ng,et al. Towards planning and practical understanding of the need for meteorological and climatic information in the design of high‐density cities: A case‐based study of Hong Kong , 2012 .
[26] F. Haghighat,et al. Zonal Modeling for Simulating Indoor Environment of Buildings: Review, Recent Developments, and Applications , 2007 .
[27] Yin-Hao Chiu,et al. Turbulence effects on the discharge coefficient and mean flow rate of wind-driven cross-ventilation , 2009 .
[28] Rafik Belarbi,et al. Modeling green wall interactions with street canyons for building energy simulation in urban context , 2016 .
[29] B. Farhanieh,et al. A numerical study of reactive pollutant dispersion in street canyons with green roofs , 2018 .
[30] Marjorie Musy,et al. Microclimatic coupling as a solution to improve building energy simulation in an urban context , 2011 .
[31] Zhi-Hua Wang,et al. Effect of pavement thermal properties on mitigating urban heat islands: A multi-scale modeling case study in Phoenix , 2016 .
[32] P. Alam. ‘A’ , 2021, Composites Engineering: An A–Z Guide.
[33] H. Manz,et al. Temperature-driven single-sided ventilation through a large rectangular opening , 2005 .