A Design and Analysis of Artificial Vortex (ArVo) Based Stand-Alone Microgrid on Universities of Bangladesh

Journal of Energy Research and Reviews Pub Date : 2022-09-20 DOI:10.9734/jenrr/2022/v12i2237

Md. Mostakim Rahman, Md. Zubaer Mahmud Rony, N. Nahar, Most Surmita Akter, Tanjuma Akter, Mashur Al Owashi, S. Haque

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Abstract

The administration of universities of Bangladesh faces financial drawbacks every year due to subsidies in the field of electrical power cost. The reason behind this is, students, consume more electric power than they pay for. To solve this problem a modern hydroelectric technology can be implemented. This new technology is called Artificial Vortex (ArVo). This method of power generation utilizes the natural tendency of whirlpool formation of fluids by defining a new flow path thereby causing a turbulent circular movement of fluid layers. Every day students and teachers use a huge volume of water. This water is excluded from the university premises by the wastewater paths. This wastewater flow can be utilized to generate electricity. In Artificial Vortex, a curved wall is designed in the water path to concentrate the water flow and generate rotational energy. This rotational energy is implemented on a vertical axis turbine. This turbine is rotated by the water flow impact and produce clean electricity through an alternator. The cost of electricity has been simulated by HOMER Pro software.

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基于人工涡流(ArVo)的孟加拉大学单机微电网设计与分析

由于电力成本方面的补贴，孟加拉国的大学管理每年都面临着财政上的困难。这背后的原因是，学生们消耗的电力比他们支付的要多。为了解决这一问题，可以采用现代水力发电技术。这项新技术被称为人工涡流(ArVo)。这种发电方法利用流体漩涡形成的自然趋势，通过定义一个新的流动路径，从而引起流体层的湍流循环运动。每天学生和老师使用大量的水。这些水被废水通道排除在大学校园之外。这些废水可以用来发电。在人工旋涡中，在水道上设计了弯曲的壁面来集中水流并产生旋转能量。这种旋转能量是在垂直轴涡轮机上实现的。这台涡轮机在水流冲击下旋转，并通过交流发电机产生清洁电力。利用HOMER Pro软件对电力成本进行了模拟。

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 Energy Research and Reviews

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