Enhancing the performance of Gravitational Water Vortex Turbine through Novel Blade Shape by Flow Simulation Analysis

Journal of Technology Innovations and Energy Pub Date : 2023-06-29 DOI:10.56556/jtie.v2i2.540

Aamer Sharif¹, Adnan Aslam Noon², Riaz Muhammad³, Waqas Alam¹

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引用次数: 2

Abstract

The demand for renewable energy is increasing in developing countries. Producing electricity from low-head micro-hydropower, especially using the gravitational water vortex method, attracts researchers worldwide. The present study investigates the detailed performance evaluation of single-stage Gravitational water vortex turbine assembled in a conical basin. A detailed numerical study has been conducted on five different runners' shapes. The three best runners were selected for experimentation based on the water pressure inserted on the blades. The effects of blade shape on the performance parameters of single-stage Gravitational water vortex turbine have been investigated, including rotational speed, brake torque, and mechanical efficiency. The results showed that the round-curved runner performed better at the various flow rate levels regarding rotational speed, brake torque, and mechanical efficiency. Moreover, round curved runners absorbed maximum torque, producing higher rotational speed and mechanical efficiency. The blades of the round curved runner give an efficiency of 48.02 %, while the blades of the conical J shape runner and helical runner give an efficiency of 42.17 % and 38.64 %, respectively.

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基于流动模拟分析的新型叶片形状提高重力水涡涡轮性能

发展中国家对可再生能源的需求正在增加。利用低水头微型水力发电，特别是利用重力水涡发电，一直是国内外研究的热点。本文对单级重力水轮机在锥形水池内的性能进行了详细的评价。对五种不同体型的跑步者进行了详细的数值研究。根据施加在叶片上的水压，选出三名最佳选手进行实验。研究了叶片形状对单级重力水涡涡轮性能参数的影响，包括转速、制动扭矩和机械效率。结果表明，在不同流量水平下，圆形弯道在转速、制动扭矩和机械效率方面表现较好。此外，圆形弯曲流道吸收最大扭矩，产生更高的转速和机械效率。圆形弧形流道叶片效率为48.02%，锥形J型流道叶片效率为42.17%，螺旋型流道叶片效率为38.64%。

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Journal of Technology Innovations and Energy Social Sciences and Management Studies-

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期刊介绍： Journal of Technology Innovations and Energy aims to report the latest developments and share knowledge on the various topics related to innovative technologies in energy and environment.