Abstract
As an important infrastructure project, the concrete gravity dam plays an extremely important role in hydropower generation, irrigation, flood control, and other aspects. Seepage is an important factor affecting the stability of concrete gravity dams. Seepage safety assessment is of great significance to the safe operation of the dams. However, the existing seepage safety assessment models are not dynamic, and the correlation among indicators is often neglected and the overall seepage safety of the concrete gravity dams has not been considered. To solve these problems, this research proposes a dynamic matter-element extension (D-MEE) model. First, the D-MEE model is established through adroit integration of the matter-element extension (MEE) model and functional data analysis (FDA). Second, a dynamic criteria importance through the intercriteria correlation (D-CRITIC) method that can effectively consider the correlation among indicators is proposed to determine the weights. Third, the influence of different dam blocks on the overall seepage safety status is considered by constructing a spatial weight matrix. Finally, the proposed method is applied to the concrete gravity dam X in southwest China. The results show that the proposed method is effective and superior to the existing evaluation methods of seepage safety.
Highlights
The problems of environmental pollution brought by conventional energy sources have posed great threats to the sustainable development of human beings [1]
In order to consider the influence of the seepage safety state of different dam blocks on the overall seepage safety of the dam, this paper introduces the evaluation eigenvalue of each dam block into the construction of the spatial weight matrix to calculate the comprehensive score of seepage safety assessment
Earlier, temperature level difference are proposed as indicators, seepage flow (C3)
Summary
The problems of environmental pollution brought by conventional energy sources have posed great threats to the sustainable development of human beings [1]. All countries are shifting to replace conventional energy sources with renewable energy. There are many kinds of renewable energy, such as hydropower, wind power, and solar power [2]. In addition to the advantages of low cost, continuous regeneration, and no pollution, hydropower development plays an active role in the comprehensive management and utilization of rivers. Plan (2014–2020) clearly states that by 2020, the total installed capacity of hydropower will reach. Hydropower is considered a promising renewable energy source [4]
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