Analysis of the Effects of Overflow Leakage Phenomenon on Archimedes Turbine Efficiency

2018 4th International Conference on Science and Technology (ICST) Pub Date : 2018-08-01 DOI:10.1109/ICSTC.2018.8528687

A. I. Siswantara, M. Gumelar S, Budiarso, Rudias Harmadi, Warjito, D. Adanta

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引用次数: 5

Abstract

In Indonesia, 2,519 villages do not have access to electricity. This is because its location is difficult to access. Utilizing small-scale hydropower by using the pico hydro type Archimedes turbine could be an alternative solution. The Archimedes turbine operates under low head conditions with a wide range of water discharge. The aims of this study are to determine the value of the critical slope angle (a) that causes overflow leakage, and to observe the effects of turbine slope angle variation on turbine efficiency. This study is composed of an analytical methodology, followed by an experiment. The results from both methods reveal significant differences. The analytical calculation predicted that overflow leakage would drastically reduce turbine efficiency. However, the experiment found that overflow leakage does not significantly decrease turbine efficiency. This result implies that the predicted effects of overflow leakage phenomenon outlined within the analytical methodology of this study is inaccurate. Moreover, this result suggests that determining the critical value of a to prevent overflow leakage is unnecessary.

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溢流泄漏现象对阿基米德水轮机效率的影响分析

在印度尼西亚，2519个村庄没有通电。这是因为它的位置很难进入。利用小型水力发电，使用微型水力型阿基米德涡轮机可能是另一种解决方案。阿基米德水轮机在低水头条件下运行，水量范围广。本研究的目的是确定引起溢流泄漏的临界坡角(a)的值，并观察水轮机坡角变化对水轮机效率的影响。本研究由分析方法和实验组成。两种方法的结果均有显著差异。分析计算表明，溢流泄漏将大大降低涡轮效率。然而，实验发现溢流泄漏并没有明显降低涡轮效率。这一结果表明，在本研究的分析方法中概述的溢漏现象的预测影响是不准确的。此外，这一结果表明，没有必要确定a的临界值来防止溢流泄漏。

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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2018 4th International Conference on Science and Technology (ICST)

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