ANALISIS PENGARUH VARIASI DEBIT AIR TERHADAP KECEPATAN PUTARAN TURBIN CROSSFLOW PADA PEMBANGKIT LISTRIK TENAGA MIKROHIDRO

Jurnal Ilmiah Spektrum Pub Date : 2023-06-30 DOI:10.24843/spektrum.2023.v10.i02.p6

N. Kartono, C. G. Indra Partha, W. G. Ariastina, I. Giriantari, I. N. Satya Kumara, I. W. Sukerayasa

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Abstract

The Yeh Dikis River in Tabanan Regency Bali has a natural environment which is considered suitable to be used as a tourism destination. The factor that supports the Yeh Dikis River to become a tourism object is the river's potential to generate electricity. In this paper, a particular turbine for micro-hydro power plant is designed. The Yeh Dikis River has a water discharge of 0.381 m3/s with a head value of 8.2 meters, with a potential output power of 18.15 kW. The value of the water discharge and the output power are used to determine the type of turbine used. The computation and simulation showed that the crossflow turbine is suitable for the power plant. The analysis showed that a water discharge of 0.381 m3/s with a penstock diameter of 0.44 meters produces a specific rotational speed of 186 rpm; while a water discharge of 0.381 m3/s with a penstock diameter of 0.55 meters produces a turbine specification rotation speed of 160 rpm. This indicated that the effective head value affects the determination of the penstock diameter and the water velocity. The smaller diameter of the penstock produces, the higher the velocity of the water flow in the pipe. A low effective head will result in a low specific rotational speed. It was found that the optimum turbine power output for a water discharge of 0.381 m3/s with a penstock diameter of 0.44 meters is 18.15 kW. The work of the crossflow turbine is validated using a turbine simulator to determine the rotational speed of the turbine for a particular torque.

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分析水流量变化对微水电发电厂交叉流涡轮转速的影响

巴厘岛塔巴南摄政的耶迪基斯河拥有一个被认为适合用作旅游目的地的自然环境。叶迪基斯河之所以能成为旅游景点，是因为这条河有发电的潜力。本文设计了一种微型水电厂专用水轮机。叶地基斯河水流量0.381 m3/s，水头8.2米，潜在输出功率18.15 kW。水量和输出功率的大小决定了所使用的水轮机的类型。计算和仿真结果表明，横流式水轮机适用于电厂。分析表明，当流量为0.381 m3/s，压力管直径为0.44 m时，比转速为186 rpm;而流量0.381 m3/s，压力管直径0.55米产生的涡轮规格转速为160转/分。这表明有效水头值影响着压力管直径和水流速度的确定。压力管直径越小，管道内水流速度越高。一个低的有效水头将导致低的比转速。结果表明，当水流量为0.381 m3/s，压力管直径为0.44 m时，涡轮的最佳输出功率为18.15 kW。利用涡轮模拟器验证了横流式涡轮的工作，以确定涡轮在特定转矩下的转速。

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 Ilmiah Spektrum

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24 weeks