PENGARUH TINGGI CELAH ALIRAN PADA SLUICE GATE TERHADAP KINERJA KINCIR AIR JENIS SUDU MELENGKUNG

Jurnal Rekayasa Mesin Pub Date : 2023-05-29 DOI:10.21776/jrm.v14i1.1095

Ridho Dwi Syahrial, Rudy Soenoko, T. Widodo, Alfeus Sunarso

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Abstract

This study aimed to determine the effect of adding the sluice gate and the optimal width of the sluice gate on the waterwheel performance. Tests have been carried out experimentally on a laboratory scale. In the test, this study used an open channel waterwheel with variations in the flow gap width gate width of 25mm, 35mm, and 40mm. Each variation of the flow gap width will be tested at a flow rate of 12 liters/second. Parameters such as mill power, turbine torque, and efficiency will be determined based on the measurement results of the rotational speed of the waterwheel wheel, water level, and braking load. The results showed that the width of the sluice gate flow gap affects the performance of the waterwheel. The highest performance was obtained at a flow gap of 25mm followed by a flow gap width of 35mm, and the lowest performance was obtained at a variation of the slit width of 40mm. The maximum performance of the waterwheel is obtained at variations in the width of the flow gap of 25mm at 50 rpm rotation conditions with a discharge of 12 liters/second where liters were generated 15.06 watts and the efficiency 29.82%.

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本研究旨在确定增加水闸和最佳水闸宽度对水轮性能的影响。试验已在实验室规模上进行了实验。在试验中，本研究采用明渠水轮，其流隙宽度分别为25mm、35mm和40mm。流动间隙宽度的每个变化将以12升/秒的流速进行测试。根据水轮轮转速、水位、制动负荷的测量结果，确定磨机功率、涡轮扭矩、效率等参数。结果表明，水闸水流间隙的宽度对水轮的工作性能有较大影响。流隙宽度为35mm时性能最好，狭缝宽度为40mm时性能最差。水轮的最大性能是在流量间隙宽度为25mm的情况下，在50转/分的旋转条件下，流量为12升/秒，其中升产生15.06瓦，效率为29.82%。

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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Jurnal Rekayasa Mesin

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