RESEARCH METHODS

Analysis of article to determine research methods used






Id : 3056

Author :
Li J.

Title


Water Environment Governance of Urban and Rural Spaces Integrating Natural Ecological Landscape Design Method

Reference :


Li J. Water Environment Governance of Urban and Rural Spaces Integrating Natural Ecological Landscape Design Method,Journal of Environmental and Public Health 2022

Link to article https://www.scopus.com/inward/record.uri?eid=2-s2.0-85138305208&doi=10.1155%2f2022%2f3623141&partnerID=40&md5=a8151dea659baee42da91825598db6d3
Abstract The water environment is one of the basic elements that constitute the environment. It is an important place for the survival and development of human society, and it is also the most seriously disturbed and damaged area by humans. The pollution and destruction of water environment has become one of the major environmental problems in the world today. The essence of urban water space landscape design under the concept of integrating people's ecological design is the ecological landscape design of urban water spaces, while the development of ecological landscape design in the field of urban water space landscape design is still in its infancy, and the interpretation of its concept is also different. The ecological design of the landscape reflects a new dream of human beings, a new aesthetics and value: the true cooperative and fraternal relationship between man and nature. At present, the ecological design of urban water space landscape has not put forward a more accurate concept, clear principles and standards, and a complete and systematic theoretical basis, which requires further research, discussion, and continuous practice by this generation of designers to improve it. To this end, this paper proposed a research method on the integration of water environment governance in urban and rural spaces with natural ecological landscape design. This paper mainly talked about the status quo of water environment and its network sensor algorithm research and analyzed its coverage area one by one. Then, the water quality extraction is introduced in detail. And finally, the data analysis of the Beijing river waters, the analyzer rainfall, water quality, and so on are carried out in the experimental part. It could be seen from the experimental results that there were currently 22 reclaimed water plants in six urban areas of Beijing, with a daily water treatment capacity of 4.08 million cubic meters and a sewage treatment rate of 98%. As of 2016, 440 million cubic meters of reclaimed water has been reused. With the commissioning of the new reclaimed water system, the proportion of reclaimed water in the river and lake environment will continue to increase. © 2022 Jun Li.

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Metodology:

None detected


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