利用高强度激光束实现远距离无线电力传输的垂直多结太阳能电池性能

P. Sharma, Shaswata Banerjee, S. Bose, Biswajit Jana, Omkar Goswami, Surya Sen, Pradipan Dey, A. Bhunia, P. Modak, Arindam Shyam, Rajdip Mitra, A. Chandra, Rajib Sarkar, Supratim Sengupta, D. Raj, R. Kumar, Shiva Ashish, P. Mondal, Kamalesh Sarkar, Naushad Ahmed, Sougata Banerjee
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引用次数: 3

摘要

无线传输到远距离物体一直是研究人员和科学家期待已久的任务,但旧的技术,如磁共振耦合方法,未能提供任何令人满意的远距离电力传输,虽然它是很好的小或很近距离的电力传输。空间站、登月舱、月球车、无人驾驶飞行器或无人机等远距离移动物体在很大程度上受到供电机制不足的影响,导致这些飞行器的飞行时间短。主要的限制是直升机和四旋翼直升机的耐力差,因为它们的设计效率和垂直起降的性质比那些有固定翼的车辆低得多。利用激光能量束对任何有光跟踪系统的目标进行充电,可以实现无限飞行续航力。本文讨论了基于垂直多结太阳能电池(VMJSC)的高强度激光集束(HILB)系统的无线电力传输,并对其性能进行了研究和分析。许多HILB系统已被用于检查VMJSC在不同类型条件下的性能。本文研究和分析了最佳接收结构、平行电池反馈、激光波长、热效应和高强度非均匀照明等方法。提出了进一步改进系统和达到足够功率密度的建议。研究表明,VMJSC机制可以在不损坏高强度激光光束的情况下进行功率传递,并保持其效率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Performance of vertical multi junction solar cell for long distance wireless power transfer using high intensity laser beam
Wireless Power Transfer to long distance objects has been a much awaited task for researchers and scientists but old technologies like magnetic resonance coupling method were failed to provide any satisfactory result for long distance power transfer though it was good for small or very near distance power transfer. Far distant moving objects like space stations, lunar modules, rovers, unmanned aerial vehicles or drones largely suffer from lack of power providing mechanism resulting in short flight time of these vehicles. Major limitation is poor endurance for helicopters and quad-copters due to their very less efficient design and nature of vertical take-off and landing in comparison to those vehicle having fixed wings. Unlimited flight endurance can be achieved by using laser power beaming to recharge any target having optical tracking system done by beam riding method. Here wireless power transmission using a high intensity laser beaming (HILB) system by illuminating vertical multi-junction solar cell (VMJSC) has been discussed and its performance is studied and analyzed. Many of the HILB systems have been used to examine the performance of VMJSC under different types of conditions. Here many of the methods like optimal receiver geometry, parallel cell back-feeding, laser wavelength, thermal effects and non-uniform illumination at high intensities are studied and analyzed. Suggestions are made to further improve the system and to achieve sufficient power densities. Study shows that VMJSC mechanism can be used for high intensity laser beaming to power transfer without being damaged and retaining its efficiency.
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