Research on an optimal operation model for cascade pumping stations based on simulations

IF 1.6 4区农林科学 Q2 AGRONOMY

Irrigation and Drainage Pub Date : 2024-03-04 DOI:10.1002/ird.2944

Xinrong Zheng, Zhanyi Gao, Peiling Yang, Mengting Chen

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引用次数: 0

Abstract

Cascade pumping stations (CPS) consume a large amount of energy every year in lifting districts. To obtain a reasonable and feasible operation scheme for CPS, this paper proposes an optimal operation model for CPS based on simulations. A one-dimensional unsteady flow model of open canals was coupled with the optimal operation model of CPS, and an energy-dominated optimization was proposed with the water level of the inlet pool as the coordinated variable. The optimization model was solved by using the catch-up method and the nondominated sorted genetic algorithm II (NSGA-II). The optimal operation method was validated and implemented in the first-stage and second-stage pumping stations of the Zuncun Irrigation Project by lifting water from the Yellow River in Shanxi province. The results showed that the proposed optimization model can reduce the energy consumption of the CPS by 4% compared with the actual operation. In addition, the optimal operation model of the CPS coupled with simulation can realize the dynamic balance of flow by stabilizing the inlet pool level to operate within a safe range. The energy consumption of the CPS can be reduced by keeping the water level of the intake pool as high a level as possible.

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基于模拟的级联泵站优化运行模型研究

梯级泵站（CPS）每年在提水地区消耗大量能源。为获得合理可行的梯级泵站运行方案，本文提出了基于仿真的梯级泵站优化运行模型。将明渠一维非稳定流模型与 CPS 优化运行模型耦合，提出了以进水水池水位为协调变量的能量主导优化方案。利用追赶法和非主流排序遗传算法 II（NSGA-II）对优化模型进行了求解。该优化运行方法在山西省尊村灌溉工程的一级和二级泵站进行了验证和实施。结果表明，与实际运行相比，所提出的优化模型可使 CPS 的能耗降低 4%。此外，与仿真相结合的 CPS 优化运行模型可通过稳定进水池水位实现流量动态平衡，使其在安全范围内运行。通过尽可能保持进水池的高水位，可降低 CPS 的能耗。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Irrigation and Drainage 农林科学-农艺学

CiteScore

3.40

自引率

10.50%

发文量

107

审稿时长

3 months

期刊介绍： Human intervention in the control of water for sustainable agricultural development involves the application of technology and management approaches to: (i) provide the appropriate quantities of water when it is needed by the crops, (ii) prevent salinisation and water-logging of the root zone, (iii) protect land from flooding, and (iv) maximise the beneficial use of water by appropriate allocation, conservation and reuse. All this has to be achieved within a framework of economic, social and environmental constraints. The Journal, therefore, covers a wide range of subjects, advancement in which, through high quality papers in the Journal, will make a significant contribution to the enormous task of satisfying the needs of the world’s ever-increasing population. The Journal also publishes book reviews.