Hiba Al Tatar, Noura AlMaghareez, Raed Abed, Joud Alsarayra, H. Qandil, Emad Abdelsalam
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引用次数: 0
摘要
近年来,风能的使用急剧增长。由于风偶尔会伴随着降雨和风暴,因此风能和雨水的联合收集可能是一种可行且有效的解决方案。这项工作提出了一种新颖的设计,收集风能和水能,为约旦Al Zaatari难民营的一所小学建筑供电。该设计集成了螺旋垂直轴风力涡轮机(V a WT)和阿基米德螺旋涡轮机。这项工作展示了如何利用螺旋风力涡轮机从风的运动中产生能量,以及如何将雨水通过排水沟收集到集成的阿基米德螺旋水轮机中,并进一步产生更多的能量。结果表明,在学校使用30个单元的系统时,每年平均风能总发电量为12.96兆瓦时,平均雨水总发电量为16.35千瓦时。
Integration of Helix Wind and Archimedes Screw Turbines for Renewable Energy Generation from Wind and Rainwater
The use of wind energy has grown drastically over recent years. As wind can occasionally be accompanied by rainfall and storms, the combined harvesting of wind energy and rainwater can be a viable and efficient solution. This work proposes a novel design to collect wind and water flow energy to supply an elementary school building in the Al Zaatari refugee camp in Jordan with electricity. The design integrates a helix vertical axis wind turbine (V A WT) and an Archimedes screw turbine. This work showed how to utilize the helix wind turbine to generate energy from the wind movement and how the rainwater is collected via gutters to pour into the integrated Archimedes screw water turbine and further generate more power. Results showed that the total average wind energy production per year was 12.96 MWh, and the total average energy production from rainwater was 16.35 kWh, using a 30-unit system at the school.