Experimental Study of The Fan Turbine Performance in Oscillating Water Column with Airflow System in Venturi Directional

Wave: Jurnal Ilmiah Teknologi Maritim Pub Date : 2023-08-23 DOI:10.55981/wave.2023.819

Madi Madi, Muhammad Gufran Nurendrawan Bangsa, Bintari Citra Kurniawan, Andi Andi, Fathan Hafiz, Putty Yunesti, Amelia Tri Widya, Asfarur Ridlwan, Daniel Epipanus

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Abstract

The Indonesian Ocean Energy Association has ratified the potential for ocean wave energy in Indonesia with a theoretical potential of 141,472 Megawatts. Unfortunately, this vast potential has not yet been utilized optimally in the Indonesian seas. Ocean wave energy technology has developed rapidly in various countries worldwide. One of the most famous ocean wave power generation technologies is the Oscillating Water Column (OWC), which utilizes airflow from ocean waves oscillating movement. Inspired by OWC, an innovative ocean wave power generation technology model was designed using a simpler fan turbine because it is directly integrated with an electric dynamo and an internal flow system in a venturi tube which can increase airspeed based on the concept of continuity theory. The experiment's results succeeded in creating up and down movements of ocean waves with a high tide of 15 cm and a low tide of 12 cm. Ocean wave oscillations can produce gusts of air with a speed of 1.56 m/s. The final result is obtained by model performance with an average turbine rotation speed of 42.191 rpm, an average electric voltage of 0.809 volts, and a more optimal turbine efficiency of 67.9%.

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文丘里定向振荡水柱气流系统中风机涡轮性能试验研究

印度尼西亚海洋能源协会已经批准了印度尼西亚海浪能的潜力，其理论潜力为141,472兆瓦。不幸的是，这一巨大潜力尚未在印度尼西亚海域得到最佳利用。海浪能技术在世界各国得到了迅速发展。振荡水柱(OWC)是最著名的海浪发电技术之一，它利用海浪振荡运动产生的气流。受OWC的启发，设计了一种创新的海浪发电技术模型，使用更简单的风扇涡轮，因为它直接集成了一个电动机和一个文丘里管内部流动系统，可以根据连续性理论的概念提高空速。实验结果成功地创造了海浪的上下运动，高潮为15厘米，低潮为12厘米。海浪振荡可以产生速度为1.56米/秒的气流。风机平均转速为42.191转/分，平均电压为0.809伏，风机效率为67.9%时，通过模型性能得到最终结果。

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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Wave: Jurnal Ilmiah Teknologi Maritim

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