Study of the Power Required for Flight of the Aqua-Quad (Solar Powered Quad-Rotor Unmanned Aerial System)

Abstract

This thesis describes a study of the in-flight energy consumption of the Aqua-Quad - a Naval Postgraduate Schooldeveloped small Unmanned Aerial System (UAS). The Aqua-Quad concept pairs small drones and solar power in an innovative quadrotor system that can be launched from water or land for persistent and autonomous Intelligence, Surveillance, and Reconnaissance (ISR) operations. The primary in-flight energy consumption of the Aqua-Quad stems from the thrust required to balance weight and drag. Analytically, this study used actuator disk theory to derive the power requirements based on the thrust and airspeeds during cruise and other phases of flight. To complete the power model, sub-models of the Aqua-Quad aerodynamics, particularly the lift induced by the solar arrays, were also developed. Experimental flights and Computational Fluid Dynamic analysis were conducted to validate these models. The models developed in this thesis can be used to predict the power required for different Aqua-Quad flight speeds and weights, allowing the maximum flight range and endurance to be determined. An accurate power model also allows for a high-fidelity energy balance model to aid in mission planning and design optimization. Moreover, these models can be generalized for other small quadrotor UAS, which are expanding into the industrial, commercial, and military sectors for novel applications.

Document Details

Document Type

Technical Report

Publication Date

Sep 01, 2020

Accession Number

AD1126696

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