E3S Web Conf.
Volume 237, 20213rd International Symposium on Architecture Research Frontiers and Ecological Environment (ARFEE 2020)
|Number of page(s)||8|
|Section||Ecological Environment, Urban Planning and Construction|
|Published online||09 February 2021|
- K. Yang, M. Tang, Y. Liu, et al. Analysis of microclimate effects around river and waterbody in Shanghai urban district. Journal of East China Normal University (Natural Science) 03: 105-114 (2004) [Google Scholar]
- E. A. Hathway, S. Sharples. The interaction of rivers and urban form in mitigating the Urban Heat Island effect: A UK case study. Building and Environment 58: 14-22 (2012) [Google Scholar]
- H. F. Li, Y. S. Li, Z. Lu, et al. Analysis on the thermal environment effect of river corridor landscape. Geography and Geo-information science 31(04): 5154+133 (2015) [Google Scholar]
- Z. Cai, G. F. Han, M. C. Chen. Do water bodies play an important role in the relationship between urban form and land surface temperature?. Sustainable Cities and Society 39: 487-498 (2018) [Google Scholar]
- C. Ren, R. Yang, C. Cheng, et al. Creating breathing cities by adopting urban ventilation assessment and wind corridor plan–The implementation in Chinese cities. Journal of Wind Engineering and Industrial Aerodynamics 182: 170-188 (2018) [Google Scholar]
- H. Z. Xi, S. Jiao, L. Y. Lu. Research on the mode of creating urban natural ventilation channel for the areas where its hot in summer and cool in winter-take Changsha as an example. Huazhong Architecture 28(06): 106-107 (2010) [Google Scholar]
- J. Y. Li, X. H. Li, R. B. Xiao. Research on the planning and control method of urban ventilation corridorsa case study of regulatory planning of Baiyun new town, Guangdong. Landscape Architecture 05: 92-96 (2014) [Google Scholar]
- S. P. Zeng. Research on the theory of “source-flowsink” ventilation corridor system construction and planning strategy-the case of the center districts of Tianjin. PHD thesis, Tianjin University (2016) [Google Scholar]
- Z. Zou, J. Kang, Z. Y. Zhou, et al. Construction and control of ventilation corridors in the main urban area of megalopolis: a case of Tianjin. Building Science 35(06): 91-97+107 (2019) [Google Scholar]
- J. Wang, Research on building layout strategy in riverfront of Shenzhen on wind environment. MSC thesis, Harbin Institute of Technology (2012) [Google Scholar]
- X. C. Song, J. Liu, L. Yu. Impact analysis of riverfront residential building design in northern region on the thermal and humid environment in summer. Building Science 31(06): 14-19 (2015) [Google Scholar]
- D. X. Zhang. Research on optimization strategy of wind environment in urban waterfront based on source and flow concept. MSC thesis, Shenyang Jianzhu University (2018) [Google Scholar]
- W. W. Wang, F. N. Li, D. Wang. A review and trend of urban ventilation channel research. Urban Problems 02: 36-40 (2018) [Google Scholar]
- E. Ng, C. Yuan, L. Chen, et al. Improving the wind environment in high-density cities by understanding urban morphology and surface roughness: A study in Hong Kong. Landscape and Urban Planning 101(1): 0-74 (2011) [PubMed] [Google Scholar]
- C. M. Hsieh, H. C. Huang. Mitigating urban heat islands: A method to identify potential wind corridor for cooling and ventilation. Computers Environment & Urban Systems 57: 130-143 (2016) [Google Scholar]
- T. T. Li. Research on the construction and planning of urban ventilation based on urban morphology and surface roughness – a case study of Shenzhen, China. MSC thesis, Shenzhen university (2017) [Google Scholar]
- C. S. B. Grimmond, T. R. Oke. Aerodynamic properties of urban areas derived from analysis of surface form. J. Appl. Meteorol. 38: 1262–1292 (1999) [Google Scholar]
- C. Yuan, C. Ren, E. Ng. GIS-based surface roughness evaluation in the urban planning system to improve the wind environment – A study in Wuhan, China. Urban Climate 10: 585-593 (2014) [Google Scholar]
- T. Ma, T. Chen. Classification and pedestrian-level wind environment assessment among Tianjin’s residential area based on numerical simulation. Urban Climate 34: 100719 (2020) [PubMed] [Google Scholar]
- T. Gál, J. Unger. Detection of ventilation paths using high-resolution roughness parameter mapping in a large urban area. Building & Environment 44(1): 198-206 (2009) [Google Scholar]
- B. Givoni. Climate considerations in building and urban design. Van Nostrand Reinhold (1998) [Google Scholar]
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