Computational and Experimental Study of the Effect of Solidity and Aspect Ratio of a Helical Turbine for Energy Generation in a Model Gravitational Water Vortex Power Plant

Journal of Advanced College of Engineering and Management Pub Date : 1900-01-01 DOI:10.3126/jacem.v6i0.38360

Shubhash Joshi, A. K. Jha

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引用次数: 1

Abstract

Gravitational Water Vortex power plant is a relatively new plant used to generate hydropower from low head rivers and canals. There has been an increase in research in the field of runner design and canal design for GWVPPs throughout the world. As no definite equations are formulated in case of runners used in a GWVPP, they are currently produced by hit and trial method. This research focuses on studying about the use of a pure reaction turbine, Gorlov turbine, to generate power from a GWVPP. ANSYS Fluent was used to perform computational study while the experimental study was done using helical turbine blades fabricated using a 3-D printer. The energy generated is very low compared to the impulse turbines. Both the computational and experimental study shows that when increasing the aspect ratio of the turbine but keeping the solidity same, the efficiency is increased significantly. However, the studies also show that on increasing the solidity, the efficiency seems to decrease. All the turbines used submerged to 3 different depts and all the results show that increasing the submergence increased the efficiency.

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重力水涡电厂螺旋涡轮固体度和展弦比对发电影响的计算与实验研究

重力水涡电站是一种较新的利用低水头河流和运河发电的电站。近年来，国内外对gwvp的流道设计和渠道设计的研究越来越多。对于GWVPP中使用的跑道，由于没有明确的公式，目前采用的是hit - and - trial法。本研究的重点是研究利用纯反应涡轮Gorlov涡轮从GWVPP发电。采用ANSYS Fluent进行计算研究，实验研究采用3d打印机制造的螺旋涡轮叶片。与脉冲涡轮机相比，产生的能量非常低。计算和实验研究均表明，在保持涡轮固度不变的情况下，增大涡轮展弦比可显著提高效率。然而，研究也表明，随着固体度的增加，效率似乎有所下降。所有的水轮机都在3个不同的深度下潜，所有的结果都表明，增加下潜深度可以提高效率。

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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Journal of Advanced College of Engineering and Management

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