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A platform for research: civil engineering, architecture and urbanism
Restoration of Urban Water Environment Landscape System and SWMM Technology Integration in Water-Scarce Cities
Economic development has led to a rapid increase in urban water consumption. The number of cities with water shortages nationwide is increasing. The establishment of a water resource circulation system is conducive to solving the urban water shortage. This study aims to investigate the restoration of the urban water environment landscape system and the integration of SWMM technology in cities with scarce water resources. For this objective, the meteorological situation of a city with water shortage in central China was used to establish the surface water hydrological model of Teaneck Creek. By establishing a data collection system at each meteorological point of the city, the USEPA SWMM model was implemented to simulate the movement of the urban sub-base system. The relationship model between the surface water flow and groundwater flow was established, and then the relationship between vegetation and soil was determined to formulate a plan for the restoration of a benign and environmentally friendly urban water environment landscape system. The established model can solve the urban water shortage problem. The results showed that the developed model was increased the utilization rate of water resources by about 20% and the urban greening rate by about 15%. The system will bring China a sustainable and eco-friendly urbanization process, which is of guiding significance for the production and development of cities with water shortages in China.
Restoration of Urban Water Environment Landscape System and SWMM Technology Integration in Water-Scarce Cities
Economic development has led to a rapid increase in urban water consumption. The number of cities with water shortages nationwide is increasing. The establishment of a water resource circulation system is conducive to solving the urban water shortage. This study aims to investigate the restoration of the urban water environment landscape system and the integration of SWMM technology in cities with scarce water resources. For this objective, the meteorological situation of a city with water shortage in central China was used to establish the surface water hydrological model of Teaneck Creek. By establishing a data collection system at each meteorological point of the city, the USEPA SWMM model was implemented to simulate the movement of the urban sub-base system. The relationship model between the surface water flow and groundwater flow was established, and then the relationship between vegetation and soil was determined to formulate a plan for the restoration of a benign and environmentally friendly urban water environment landscape system. The established model can solve the urban water shortage problem. The results showed that the developed model was increased the utilization rate of water resources by about 20% and the urban greening rate by about 15%. The system will bring China a sustainable and eco-friendly urbanization process, which is of guiding significance for the production and development of cities with water shortages in China.
Restoration of Urban Water Environment Landscape System and SWMM Technology Integration in Water-Scarce Cities
Iran J Sci Technol Trans Civ Eng
Zhang, Cheng (author) / Li, Ruonan (author) / Dai, Liyuan (author) / Zhang, Peng (author)
2022-02-01
8 pages
Article (Journal)
Electronic Resource
English
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