利用光致发光技术研究机翼集成太阳能电池阵列的性能

D. Scheiman, J. Lorentzen, W. Yoon, R. Hoheisel, P. Jenkins
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引用次数: 0

摘要

由于电池重量和容量,飞行耐力和功率是影响当今无人机应用的限制因素。集成在机翼表面的太阳能电池阵列可以根据太阳、重量、机翼面积和效率提供额外的能量,并且已经证明飞行时间增加了一倍以上。在飞行过程中,大多数机翼表面都有一定程度的曲率和弯曲,太阳能电池板上可能会产生应力。光致发光通过光学识别细胞中的裂纹扩展来评估机翼应力。NRL已经利用太阳能电池技术为无人机制造了多种机翼。本文旨在通过阵列组装从机翼集成到飞行的过程,提供一个应用该技术研究太阳能电池裂纹的示范。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Wing Integrated Solar Array Performance Study Using Photoluminescence
Flight endurance and power are limiting factors affecting UAV applications today due to battery weight and capacity. Solar arrays integrated into the wing surface can provide additional power dependent on the sun, weight, wing area, and efficiency, and have demonstrated more than doubled flight times. With most wing surfaces having some degree of curvature and flexure during flight, stresses can be induced on the solar arrays. Photoluminescence is used to assess wing stresses by optically identifying crack propagation in the cells. NRL has built a variety of wings for UAVs from solar cell technologies. This paper intends to provide a demonstration of using this technique to study solar cell cracking through the array assembly process from wing integration to flight.
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