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蒸发冷却空调与风光互补发电结合使用的可行性分析
引用本文:申长军,黄翔,宋祥龙,张璐瑶,董晓杰,席德科.蒸发冷却空调与风光互补发电结合使用的可行性分析[J].制冷与空调(北京),2014(9):50-53.
作者姓名:申长军  黄翔  宋祥龙  张璐瑶  董晓杰  席德科
作者单位:西安工程大学;西北工业大学;
摘    要:夏季,为给户外场所降温并节约电能使用,提出利用蒸发冷却空调与风光互补发电相结合的方式。本文分别介绍了这两项技术的发展现状、原理及特点,并通过风洞模拟自然界风力带动风车发电,再与光伏板进行互补发电实验,得出其互补发电功率为166.4W,能够带动一台额定功率为170W的蒸发式冷风扇平稳运转。这两项技术的有效结合是一种绿色、低碳、环保的降温和能源利用方式。

关 键 词:干空气能  蒸发冷却空调技术  蒸发式冷风扇  风光互补发电技术  风洞试验

The feasibility analysis of evaporative air conditioning technology combined with wind-light complementary technology
Affiliation:Shen Changjun, Huang Xiang, Song Xianglong, Zhang Luyao, Dong Xiaojie, Xi Deke(1 Xi' an Polytechnic University;2 Northwestern Polytechnical University )
Abstract:In the summer, to solve the problem of cooling and the problem of its power , put forward using evaporative air conditioning technology and wind-light complementary technology combination of cooling and power supply. This paper introduces the present development situation of these two technologies, the principle and characteristics, Wind fan was driven by wind tunnel to simulation nature windmills and solar panels complementary to generation power by the experiment, it is concluded that the complementary power of 166.4 W will generate a rated power of 170 W , evaporative cooling fan runs smoothly. Effective combination of these two technologies is a green, low carbon, environmental protection, for cooling and energy utilization way.
Keywords:dry air energy  evaporative air conditioning technology  evaporative cooling fan  wind-light complementary technology  wind tunnel tests
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