STUDY OF MODIFIED PERFORATED BREAKWATER AS RENEWABLE ENERGY DEVICE

INDONESIAN JOURNAL OF URBAN AND ENVIRONMENTAL TECHNOLOGY Pub Date : 2022-04-11 DOI:10.25105/urbanenvirotech.v5i2.13536

O. Setyandito, Novandy Novandy, N. Nizam, M. Anda, R. A. Kusumadewi, Yareana Wijayanti

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引用次数: 1

Abstract

Aim: This study investigates to determine the influence of wave steepness, relative freeboard, and breaker parameters on overtopping discharge at a perforated breakwater. Methodology and results: The research method used was using both a numerical model simulations on three-dimensional computational fluid dynamics (CFD) modelling software namely FLOW-3D; and empirical equation computation. The evaluation of both approaches were performed for understanding the characteristics of wave discharge that overtopping the perforated breakwater. The experimental results of modified perforated breakwater revealed that the lowest slope possible with the highest porosity possible can generate the highest value of dimensionless overtopping discharge for wave energy harvesting. Conclusion, significance and impact study: The findings of this study formulated the optimum slope and porosity to the highest wave energy harvested. Further studies recommend that data collection from onsite trials of modified perforated breakwater are performed.

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改进型穿孔防波堤可再生能源装置的研究

目的:探讨波浪陡度、相对干舷和破碎机参数对穿孔防波堤过顶流量的影响。研究方法与结果:采用数值模型模拟三维计算流体力学(CFD)建模软件FLOW-3D;以及经验方程的计算。对这两种方法进行了评价，以了解冲过穿孔防波堤的波浪流量特性。改进的穿孔防波堤试验结果表明，尽可能低的坡面和尽可能高的孔隙率可以产生最大的无量纲过顶流量，以收集波浪能。结论、意义及影响研究:本研究结果制定了获得最高波浪能的最佳坡度和孔隙度。进一步的研究建议从改进的穿孔防波堤的现场试验中收集数据。

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INDONESIAN JOURNAL OF URBAN AND ENVIRONMENTAL TECHNOLOGY

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