A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Study On Design And Viability For Enhancement Of Smart Cities Urban Rain Flood Ecosphere
Urban flood problems have developed as a result of climate change in the contemporary urbanization environment. This study helps to develop designed as well as workable inner cities flood ecology to encourage the development of a clean city. It offers many benefits: enhancing the water environment, limiting urban water logging, decreasing pollution from runoff, and increasing water quality for rivers and lakes, reprocessing rainwater assets, filling groundwater as well as much more. This article integrates the design techniques as well as benefits design outcomes, which have been developed over decades using conventional regulation and used for the current research. It rebuilds and combines the needs of conventional regulation and spontaneous urban building, creating viable urban rain flow ecology in industrial as well as intelligent urban environment. Ultimately, the control of new rage lands in the Chinese town of Yanjin is contemplated for experiments as well as design for the direction is implemented by this arrangement. Findings of the model acquired from the clean construction test have functionality and may enhance the urban environment and the life of the town. The design outcomes of the management plan, incorporating the clean city concept, can offer efficient technological support as well as ensure the inner cities environment. Study described in article can evaluate as well as plan flood reduction actions to detect such situations principal to the risk reducing of flooding in intelligent towns as well as cities.
Study On Design And Viability For Enhancement Of Smart Cities Urban Rain Flood Ecosphere
Urban flood problems have developed as a result of climate change in the contemporary urbanization environment. This study helps to develop designed as well as workable inner cities flood ecology to encourage the development of a clean city. It offers many benefits: enhancing the water environment, limiting urban water logging, decreasing pollution from runoff, and increasing water quality for rivers and lakes, reprocessing rainwater assets, filling groundwater as well as much more. This article integrates the design techniques as well as benefits design outcomes, which have been developed over decades using conventional regulation and used for the current research. It rebuilds and combines the needs of conventional regulation and spontaneous urban building, creating viable urban rain flow ecology in industrial as well as intelligent urban environment. Ultimately, the control of new rage lands in the Chinese town of Yanjin is contemplated for experiments as well as design for the direction is implemented by this arrangement. Findings of the model acquired from the clean construction test have functionality and may enhance the urban environment and the life of the town. The design outcomes of the management plan, incorporating the clean city concept, can offer efficient technological support as well as ensure the inner cities environment. Study described in article can evaluate as well as plan flood reduction actions to detect such situations principal to the risk reducing of flooding in intelligent towns as well as cities.
Study On Design And Viability For Enhancement Of Smart Cities Urban Rain Flood Ecosphere
Jeet, Rubal (author) / Kaur, Sukhpreet (author) / Kaur, Milanpreet (author)
2021-12-01
182762 byte
Conference paper
Electronic Resource
English
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