Evaluation of an aerial quadcopter power-plant for underwater operation

Hamzeh Alzu'bi, O. A. Akinsanya, Nevrus Kaja, Iyad Mansour, O. Rawashdeh
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引用次数: 26

Abstract

This paper presents a preliminary feasibility study of using aerial, fixed-pitch propellers, underwater. Tests were performs in both air and in water using a test stand that was designed to study the efficiency of commercially available, counter-rotating, multirotor propellers. Experimental results showed that the propellers can operate ably underwater in terms of thrust to power ratio at low rotational speeds without significant cavitation. These results are currently being used to develop a novel Unmanned Aerial Vehicle (UAV) quadcopter that can fly in air and maneuver underwater. The use of only a single set of aerial rotors and motors for use in both air and underwater greatly reduces cost, weight, and complexity compared to other Aquatic Aerial-Underwater Vehicle concepts.
一种用于水下作业的空中四轴飞行器动力装置的评估
本文提出了在水下使用空中固定螺距螺旋桨的初步可行性研究。试验在空气和水中进行,使用的试验台是为了研究市售的反向旋转多旋翼螺旋桨的效率而设计的。实验结果表明,在低转速下,螺旋桨的推力功率比可以很好地在水下运行,且无明显空化现象。这些结果目前正用于开发一种新型无人机(UAV)四轴飞行器,可以在空中飞行和水下机动。与其他水上空中-水下航行器概念相比,仅使用一套空中转子和马达在空中和水下使用,大大降低了成本,重量和复杂性。
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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