Open Access
Issue
E3S Web Conf.
Volume 237, 2021
3rd International Symposium on Architecture Research Frontiers and Ecological Environment (ARFEE 2020)
Article Number 04022
Number of page(s) 8
Section Ecological Environment, Urban Planning and Construction
DOI https://doi.org/10.1051/e3sconf/202123704022
Published online 09 February 2021
  1. 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]
  2. 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]
  3. 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]
  4. 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]
  5. 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]
  6. 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]
  7. 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]
  8. 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]
  9. 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]
  10. J. Wang, Research on building layout strategy in riverfront of Shenzhen on wind environment. MSC thesis, Harbin Institute of Technology (2012) [Google Scholar]
  11. 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]
  12. 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]
  13. 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]
  14. 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]
  15. 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]
  16. 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]
  17. 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]
  18. 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]
  19. 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]
  20. 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]
  21. B. Givoni. Climate considerations in building and urban design. Van Nostrand Reinhold (1998) [Google Scholar]

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