Open Access
Issue
E3S Web Conf.
Volume 236, 2021
3rd International Conference on Energy Resources and Sustainable Development (ICERSD 2020)
Article Number 04020
Number of page(s) 6
Section Green Technology Innovation and Intelligent Application of Environmental Equipment
DOI https://doi.org/10.1051/e3sconf/202123604020
Published online 09 February 2021
  1. Zang, J.Y., Song, X.M., Wang, G.Q., et.al. (2014) Development and challenges of urban hydrology in a changing environment: I: Hydrological response to urbanization. Advances in Water Science, 25: 594–605. [Google Scholar]
  2. Liu, C.M., Zhang, Y.Y., Wang, Z.G. et.al. (2016) The LID Pattern for Maintaining Virtuous Water Cycle in Urbanized Area: A Preliminary Study of Planning and Techniques for Sponge City. Journal of Natural Resources, 31: 719–731. [Google Scholar]
  3. Ran, M.Y. (2000) Discussion on Hydrologic Effect of Urbanization. Journal of Sichuan Normal University (Natural Science), 04: 436–439. [Google Scholar]
  4. Jiao, S., Ma, B., Li, B. (2019) Review on Causes and Control Strategies of Waterlogging in China. Ecological Economy, 35: 92–97. [Google Scholar]
  5. Richard D. UK. (2016) Flood Disasters Affected 2.3 Billion and Killed 157000. http://floodlist.com/dealing-with-floods/flooddisaster-figures-1995-2015. [Google Scholar]
  6. Wu, Z.L. (1987) Preliminary analysis of pollution characteristics of urban runoff in Hangzhou. Shanghai Environmental Sciences, 06: 35–38. [Google Scholar]
  7. Ministry of Housing and Urban-Rural Development of the People’s Republic of China. (2014) Sponge City Construction Technical Guide-Low-impact development rainwater system construction. China Architecture & Building Press, Beijing. [Google Scholar]
  8. Fei, W.J., Ding, J.Y., Cao, Y. (2018) Applicability Design in Waterfront Green Space from “Flood Discharge Ditch” to “Sponge Garden”. Chinese Landscape Architecture, 34: 106–111. [Google Scholar]
  9. Jain, A., Kumar A. (2006) An evaluation of artificial neural network technique for the determination of infiltration model parameters. Applied soft computing, 6: 272–282. [Google Scholar]
  10. Yu K. (2011) Qunli National Urban Wetland-A stormwater park for a water resilient city. Topos European Landscape Magazine. [Google Scholar]
  11. Sun, Z. (2019) Research on Waterfront Landscape Reconstruction Design Based on Sponge City Concept——Taking Shanghai Shipyard Green Space Project as an Example. Construction Materials & Decoration, 11: 78–79. [Google Scholar]
  12. Liu, R.J. (2018) Research on waterfront landscape design under the concept of sponge city. Xiandai Horticulture, 04:118–119. [Google Scholar]
  13. Xu, D.L., Zhou, X.L., Wang, Y.Y. (2017) Planning and design of waterfront renewal based on the concept of “ecological sponge city”——Taking the renewal of Shenyang 204 old district as an example. Housing and Real Estate, 36: 73. [Google Scholar]
  14. Chen, J.X. (2016) Construction and Application Result of Grassed Swales in Shijiazhuang Waterfront Ecological Park. The Journal of Hebei Forestry Science and Technology, 06 : 1–4. [Google Scholar]
  15. Yao, Y. (2020) Analysis on the Urban Waterfront Landscape Design under the Sponge City Construction Concept—Taking the Phase I Project of Ningbo Yongjiang Waterfront Park as an Example. Xiandai Horticulture, 43: 68–69. [Google Scholar]
  16. Han, T., Lu, J.W. (2020) Analysis of waterfront landscape design based on the concept of sponge city. Xiandai Horticulture, 43: 126–127. [Google Scholar]
  17. Wu, J.Q., He, M. (1998) Analysis on the Planning Mode of Urban Waterfront Space. City Planning Review, 02: 46–49. [Google Scholar]
  18. Li, Z.Y., Huo, R., Ge, X.Y. (2020) Research on the Design Method of Endogenousrainwater Runoff Rainwater-harvesting Green Space in Sub –humid Area——Taking Shehuo Park in Jinzhong, Shanxi Provinvce as the Example. Chinese Landscape Architecture, 36: 107–112. [Google Scholar]
  19. Kang, J.Q., Ge, X.Y. (2019) Method for Designing Exogenous Runoff Sponge Green Space in Semihumid Region——A Case Study of the Green Space of East Binhu Road in Qian’an City. Landscape Architecture, 26: 77–82. [Google Scholar]
  20. Wang, S.S., Yang, K., Che, W. (2019) Green rainwater infrastructure in sponge city construction. China Architecture & Building Press, Beijing. [Google Scholar]
  21. Ministry of Construction of the People’s Republic of China. (2013) Technical Code for Rainwater Utilization Engineering in Buildings and Residential Districts: GB50400-2006. China Architecture & Building Press, Beijing. [Google Scholar]
  22. Zhenjiang City Planning and Design Institute. (2019) Sponge City Planning and Design Case Collection. China Architecture & Building Press, Beijing. [Google Scholar]

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