Investigate Air Well Turbines Performance for Power Generation by Tidal Waves in River

Al-Nahrain Journal for Engineering Sciences Pub Date : 2023-10-31 DOI:10.29194/njes.26030150

Elaff F.Sharif, Mahmoud Sh. Mahmoud, Abdullah A. K AL-Maskari

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Abstract

The phenomenon of climate change resulting from the increase of global warming has become one of the main problems facing the world. Where researchers and specialists have worked for many years to find a solution that reduces this phenomenon and limits its risks. It is likely that clean energy is an alternative to fossil fuel sources, which are the main source of global warming. One of the clean energy sources is ocean wave energy, which is a huge and untapped energy source, despite the possibility of extracting large energy from waves. This paper focuses on the study of deep-sea turbines and their results. A study was conducted on the capture chamber. Where this paper presents an experimental model of a water tank with certain dimensions in the university laboratories to describe the dynamic behavior of the capture chamber. The Froude number scale was used to model the dimensions and depth of the water as well as the wave properties. Through experimental work and its results show, and it was found that the power generated by the motion of the wave strength is related to the height and frequency of the wave.

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河流潮汐发电气井涡轮性能研究

由全球变暖加剧引起的气候变化现象已经成为世界面临的主要问题之一。研究人员和专家多年来一直在努力寻找一种解决方案，以减少这种现象并限制其风险。清洁能源很可能是化石燃料的替代品，而化石燃料是全球变暖的主要来源。其中一种清洁能源是海浪能，这是一种巨大的尚未开发的能源，尽管有可能从海浪中提取大量能源。本文主要介绍了深海涡轮的研究及其成果。对捕获室进行了研究。本文建立了某高校实验室某尺寸水箱的实验模型，用以描述捕集室的动态特性。采用弗劳德数比例尺来模拟水的尺寸和深度以及波浪的性质。通过实验工作及其结果显示，并发现波浪运动所产生的功率强度与波浪的高度和频率有关。

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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Al-Nahrain Journal for Engineering Sciences

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