通过构造设计法研究规则波浪条件下五室耦合振荡水柱装置的几何形状

IF 1.8 Q3 MECHANICS
Fluids Pub Date : 2024-04-05 DOI:10.3390/fluids9040086
Yuri Theodoro Barbosa de Lima, Liércio André Isoldi, E. D. dos Santos, B. N. Machado, M. N. Gomes, C. Biserni, Luiz Alberto Oliveira Rocha
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引用次数: 0

摘要

本研究对带有五个耦合水气腔的波浪能转换器(WEC)装置进行了数值研究,该装置根据振荡水柱(OWC)原理运行。不包括涡轮机,只考虑没有涡轮机的管子。计算域由容纳 OWC 设备的波道定义,该波道受到规则入射波的影响。核心目标是评估腔体几何形状对能量转换中最大化总水气动力的影响。数值模拟考虑了压力、质量流量和总水气动力,后者是性能指标。为了确定要分析的几何形状,采用了构造设计法与穷举搜索优化法相结合的方法,以最大限度地提高性能指标。确定的自由度是水气动室的高度(Hn)和长度(Ln)之间的比率(Hn/Ln,其中 n 从 1 到 5 不等)。根据质量流量和压力的结果,评估了它们对功率的影响。结果表明,自由度对压差、质量流量和流体动力的影响非常相似,Hn/Ln 比率越低,影响越大,直至达到最大值,随后影响逐渐减小。Hn/Ln = 0.2613(Hn = 5.0625 米,Ln = 15.8219 米)的几何配置性能最佳,与分析的最差情况相比,提高了 98.6%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Study of the Geometry of an Oscillating Water Column Device with Five Chambers Coupled under Regular Waves through the Constructal Design Method
This research conducts a numerical study of a wave energy converter (WEC) device with five coupled hydropneumatic chambers, operating based on the principle of an oscillating water column (OWC). A turbine was not included, only considering the tube without it. The computational domain was defined by a wave channel housing an OWC device subjected to regular incident waves. The central objective was to assess the impact of chamber geometry on maximizing the total hydropneumatic power in energy conversion. The numerical simulations consider the pressure, mass flow rate, and total hydropneumatic power, with the latter being the performance indicator. To determine the geometries to be analyzed, the Constructal Design method was employed in conjunction with the exhaustive search optimization method to maximize the performance indicator. The degrees of freedom defined were the ratios between the height (Hn) and the length (Ln) of the hydropneumatic chambers (Hn/Ln, where n varies from one to five). Based on the results of the mass flow rate and pressure, their influence on power was evaluated. It was observed that the influence of the degrees of freedom on the pressure difference, mass flow rate, and hydrodynamic power was quite similar, displaying an increase for low ratios of Hn/Ln up to a maximum magnitude and followed by a decrease in magnitude. The best performance was achieved for the geometric configuration with Hn/Ln = 0.2613 (Hn = 5.0625 m and Ln = 15.8219 m), representing an improvement of 98.6% compared to the worst case analyzed.
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来源期刊
Fluids
Fluids Engineering-Mechanical Engineering
CiteScore
3.40
自引率
10.50%
发文量
326
审稿时长
12 weeks
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