Study on environmental protection and soil and water conservation of power transmission and transformation projects in ecological vulnerable areas

Siying Du; Dan Yang; JinYang Li; Wentao Zhang; Yi Luo; Hao Ren; Wenhui Zeng; Yifu Fan

doi:10.1117/12.2692196

24 October 2023 Study on environmental protection and soil and water conservation of power transmission and transformation projects in ecological vulnerable areas

Siying Du, Dan Yang, JinYang Li, Wentao Zhang, Yi Luo, Hao Ren, Wenhui Zeng, Yifu Fan

Author Affiliations +

Proceedings Volume 12804, Second International Conference on Sustainable Technology and Management (ICSTM 2023); 1280410 (2023) https://doi.org/10.1117/12.2692196
Event: 2nd International Conference on Sustainable Technology and Management (ICSTM2023), 2023, Dongguan, China

Abstract

The project construction has an impact on the soil geology and natural environment in the project area and along the line, which causes the change of soil and water state. Therefore, the significance and role of soil retention scheme in the project implementation area to protect soil and water and avoid soil erosion are more and more prominent. As the main body of responsibility, the production and construction units put forward higher requirements for the management of soil retention and the implementation of soil retention obligations. Multi-objective programming method not only solves the defect of single linear programming goal, but also changes the current situation that every planning goal in empirical and objective programming method has convergence performance, so this method can effectively solve the problems in multi-objective comprehensive optimization of soil retention in small watershed from a mathematical point of view. Taking soil and water conservation planning of small watershed as an example, this article studies the comprehensive optimization model of soil retention in ecologically fragile areas, and puts forward a multi-objective comprehensive optimization algorithm of soil retention in ecologically fragile areas, which combines the theory of multi-objective planning with the principle of accelerated genetic algorithm (AGA). The research shows that this method has the advantages of good convergence performance and strong global optimization ability, which can provide some reference and theoretical support for multi-objective optimization of environmental protection and soil and water conservation of power transmission and transformation projects in ecologically fragile areas.

Citation Download Citation

Siying Du, Dan Yang, JinYang Li, Wentao Zhang, Yi Luo, Hao Ren, Wenhui Zeng, and Yifu Fan "Study on environmental protection and soil and water conservation of power transmission and transformation projects in ecological vulnerable areas", Proc. SPIE 12804, Second International Conference on Sustainable Technology and Management (ICSTM 2023), 1280410 (24 October 2023); https://doi.org/10.1117/12.2692196

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KEYWORDS

Soil science

Mathematical optimization

Computer programming

Animal model studies

Environmental sensing

Agriculture

Data modeling

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