Exploring the Connection between Urban 3D Form and Building Energy Performance and the Influencing Mechanism
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Guoqin Zhang | Tao Lin | Xinyue Hu | Zhuoqun Zhao | Deng Wang | Longyu Shi | Longyu Shi | Tao Lin | Guoqin Zhang | Deng Wang | Xinyue Hu | Zhuoqun Zhao | Guoqin Zhang
[1] H. Ho,et al. Reconstruction of historical datasets for analyzing spatiotemporal influence of built environment on urban microclimates across a compact city , 2017 .
[2] Feng Yang,et al. Urban form and density as indicators for summertime outdoor ventilation potential: A case study on high-rise housing in Shanghai , 2013 .
[3] Kee Moon Jang,et al. Empirical analysis of building energy consumption and urban form in a large city: A case of Seoul, South Korea , 2021 .
[4] Guoqin Zhang,et al. Effect of urban micro-climatic regulation ability on public building energy usage carbon emission , 2017 .
[5] Tong Wu,et al. The regional disparity of per-capita CO2 emissions in China’s building sector: An analysis of macroeconomic drivers and policy implications , 2021 .
[6] Seunghoo Lim,et al. The selection of compact city policy instruments and their effects on energy consumption and greenhouse gas emissions in the transportation sector: The case of South Korea , 2018 .
[7] F. Teng,et al. Estimation of urban residential electricity demand in China using household survey data , 2013 .
[8] Analysis of factors affecting CO2 emissions by civil buildings in China's urban areas , 2015 .
[9] Mehdi Shahrestani,et al. A field study of urban microclimates in London , 2015 .
[10] W. Cai,et al. Nonlinear influence of urbanization on China's urban residential building carbon emissions: New evidence from panel threshold model. , 2021, The Science of the total environment.
[11] Peter Andreas Sattrup,et al. The urban canyon and building energy use: Urban density versus daylight and passive solar gains , 2011 .
[12] B. Lin,et al. CO2 emissions from urban buildings at the city scale: System dynamic projections and potential mitigation policies , 2020 .
[13] S. Grimmond. Urbanization and global environmental change: local effects of urban warming , 2007 .
[14] Guoqin Zhang,et al. Low-carbon behavior approaches for reducing direct carbon emissions: Household energy use in a coastal city , 2017 .
[15] Matthew E. Kahn,et al. The Greenness of China: Household Carbon Dioxide Emissions and Urban Development , 2009 .
[16] Toshinori Ariga,et al. Estimation of passenger car CO2 emissions with urban population density scenarios for low carbon transportation in Japan , 2016 .
[17] E. Bozonnet,et al. Thermal impact of street canyon microclimate on building energy needs using TRNSYS: A case study of the city of Tangier in Morocco , 2021 .
[18] Yanxu Liu,et al. Seasonal contrast of the dominant factors for spatial distribution of land surface temperature in urban areas , 2018, Remote Sensing of Environment.
[19] Guoqin Zhang,et al. Modeling energy-related CO2 emissions from office buildings using general regression neural network , 2018 .
[20] Yuguo Li,et al. The impact of building density and building height heterogeneity on average urban albedo and street surface temperature , 2015 .
[21] R. Ewing,et al. The impact of urban form on U.S. residential energy use , 2008 .
[22] Xiaoshan Yang,et al. Cooling effects of block-scale facade greening and their relationship with urban form , 2020, Building and Environment.
[23] Elie Azar,et al. Effect of densification and compactness on urban building energy consumption: Case of a Transit-Oriented Development in Dallas, TX , 2020 .
[24] Qianjun Zhao,et al. Spatial pattern of urban green spaces in a long-term compact urbanization process—A case study in China , 2017, Ecological Indicators.
[25] M. Zhang,et al. Forecasting the transport energy demand based on PLSR method in China , 2009 .
[26] Linda Steg,et al. A decision tree method for explaining household gas consumption: The role of building characteristics, socio-demographic variables, psychological factors and household behaviour , 2020 .
[27] C. Ren,et al. Mapping the urban microclimatic spatial distribution in a sub-tropical high-density urban environment , 2016 .
[28] Kerui Du,et al. Climatic impact on China's residential electricity consumption: Does the income level matter? , 2020 .
[29] Sundus Shareef. The impact of urban morphology and building's height diversity on energy consumption at urban scale. The case study of Dubai , 2021 .
[30] Feng Chen,et al. Relationship between construction characteristics and carbon emissions from urban household operatio , 2011 .
[31] Mark B. Adams,et al. Impacts of the morphology of new neighborhoods on microclimate and building energy , 2020 .
[32] S. Angel,et al. The shape compactness of urban footprints , 2020 .
[33] Dong Kun Lee,et al. The Role of Green Roofs on Microclimate Mitigation Effect to Local Climates in Summer , 2018, International Journal of Environmental Research.
[34] I. Pigliautile,et al. Microclimate mitigation for enhancing energy and environmental performance of Near Zero Energy Settlements in Italy , 2020 .
[35] C. V. D. Bosch,et al. Challenges and strategies for urban green-space planning in cities undergoing densification: A review , 2015 .
[36] N. Wong,et al. Urban microclimate analysis with consideration of local ambient temperature, external heat gain, urban ventilation, and outdoor thermal comfort in the tropics , 2015 .
[37] C. Bingham,et al. Effect of urban built form and density on building energy performance in temperate climates , 2021, Energy and Buildings.
[38] Urban Form Optimization for Low Carbon Building Construction , 2019, Reference Module in Earth Systems and Environmental Sciences.
[39] Suzi Dilara Mangan,et al. The impact of urban form on building energy and cost efficiency in temperate-humid zones , 2021 .
[40] John Sweeney,et al. Modelling the impact of urban form on household energy demand and related CO2 emissions in the Greater Dublin Region , 2012 .
[41] Lishan Xiao,et al. A sustainable urban form: The challenges of compactness from the viewpoint of energy consumption and carbon emission , 2015 .
[42] N. Kaza. Urban form and transportation energy consumption , 2020 .
[43] Tang Lina. Study on the compactness assessment model of urban spatial form , 2011 .
[44] Tao Lin,et al. A Promotional Construction Approach for an Urban Three-Dimensional Compactness Model—Law-of-Gravitation-Based , 2020, Sustainability.
[45] M. Cadenasso,et al. Does spatial configuration matter? Understanding the effects of land cover pattern on land surface temperature in urban landscapes , 2011 .
[46] Noel D.G. White,et al. Comparison of Partial Least Squares Regression (PLSR) and Principal Components Regression (PCR) Methods for Protein and Hardness Predictions using the Near-Infrared (NIR) Hyperspectral Images of Bulk Samples of Canadian Wheat , 2014, Food and Bioprocess Technology.
[47] Quanyi Qiu,et al. Effects of natural environment on urban household energy usage carbon emissions , 2013 .
[48] Zhi-feng Wu,et al. Evaluation of spatially heterogeneous driving forces of the urban heat environment based on a regression tree model , 2020 .
[49] Guoqin Zhang,et al. The role of climate, construction quality, microclimate, and socio-economic conditions on carbon emissions from office buildings in China , 2018 .
[50] S. Quan,et al. Urban form and building energy use: A systematic review of measures, mechanisms, and methodologies , 2021 .