改进潮汐电站输出功率估算:一个案例研究

IF 1 4区工程技术 Q4 ENERGY & FUELS

Proceedings of the Institution of Civil Engineers-Energy Pub Date : 2023-07-11 DOI:10.1680/jener.23.00007

Kwang-Su Kim, Jong-Song Jo

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引用次数: 0

摘要

本研究的目的是分析考虑水闸通道流量系数(Cd)和潮流速度(即接近通道的流速)的变化在改进潮汐电站输出功率估计中的重要性。利用商业CFD软件包Flow 3D的模拟结果表明，水闸通道的Cd值随上游(即滞收区的海侧)水位的变化而变化。此外，在大同湾(朝鲜民主主义人民共和国)进行的案例研究结果，使用零维(0-D)模型，强调了在估计潮汐发电厂输出功率时考虑潮流速度和Cd变化的重要性。在本研究中，提出了一种详细的方案，考虑了退潮发电模式在填充、保持、发电和保持各阶段的接近速度。希望本研究的结果能够帮助科学家、工程师和决策者准确地评估世界许多地区的潮坝和泻湖的潮汐能输出。•在潮汐功率输出估计中必须考虑潮流速度的变化。•在潮汐周期中，潮流速度以不同的方式考虑。•还必须考虑水闸通道流量系数的变化。•随着上游水位的升高，流量系数逐渐减小。

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Improving the power output estimation for a tidal power plant: A case study

The aim of the present study is to analyse the importance of considering the variation in the discharge coefficient (Cd) of a sluice passage and the tidal current speed (i.e., the flow speed approaching the passage) in improving the estimation of power output for a tidal power plant. The simulation results, using a commercial CFD software package, Flow 3D, have shown that the Cd value of a sluice passage varies with the upstream (i.e., on the sea side of the impounded area) water level. In addition, the results of a case study carried out in the Taedong Bay (the DPR Korea), using a zero-dimensional (0-D) model, highlight the importance of considering variations in the tidal current speed as well as Cd when estimating the power output for tidal power plant. In the present study, a detailed scheme is proposed to consider the approach speed at each stage of filling, holding, generating, and holding for the mode of ebb generation. It is hoped that the results of the present study will help scientists, engineers, and decision makers to accurately evaluate the tidal power output of tidal barrages and lagoons in many regions of the world. Highlights • The tidal current speed change must be considered in tidal power output estimation. • The tidal current speed is considered in different ways during a tidal cycle. • The variation in discharge coefficient of a sluice passage must also be considered. • The discharge coefficient gradually decreases as the upstream water level increases.

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来源期刊

Proceedings of the Institution of Civil Engineers-Energy ENERGY & FUELS-

CiteScore

3.00

自引率

18.20%

发文量

期刊介绍： Energy addresses the challenges of energy engineering in the 21st century. The journal publishes groundbreaking papers on energy provision by leading figures in industry and academia and provides a unique forum for discussion on everything from underground coal gasification to the practical implications of biofuels. The journal is a key resource for engineers and researchers working to meet the challenges of energy engineering. Topics addressed include: development of sustainable energy policy, energy efficiency in buildings, infrastructure and transport systems, renewable energy sources, operation and decommissioning of projects, and energy conservation.