Martian Combustion-Powered Fixed-Wing UAVs: An Introductory Investigation and Analysis

Ross, Samuel A. and White, Amanda E. and Andresen, Adam and Alam, Shah Saud and Depcik, Christopher (2022) Martian Combustion-Powered Fixed-Wing UAVs: An Introductory Investigation and Analysis. Aerospace, 9 (8). p. 447. ISSN 2226-4310

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Abstract

The Martian topography needs to be investigated in greater detail for human habitations, and this can be accomplished faster using unmanned aerial vehicles (UAVs). In this regard, the RQ-11B Raven appears suitable for remote sensing and topography-mapping applications on Mars, due to its popularity in surveillance and reconnaissance applications on Earth. As a result, this study investigates the flight of this UAV in the Martian atmosphere with the assumptions that it employs an NACA S7012 airfoil and its electric propulsion technology is replaced with a four-stroke oxy-methane fueled Saito FG-11 internal combustion engine (ICE). This ICE is estimated to supply 367.8 W resulting in an engine speed of 6891 revolutions per minute. Based on this speed, the UAV must fly at least 72 m/s (Re = 18,100) at a 5° angle of attack to support flight under calm conditions. To achieve this speed will be difficult; thus, a weather balloon or German V1-style launch system should be employed to launch the UAV successfully. Furthermore, the UAV must operate below 165 m/s (Re = 41,450) to prevent transonic conditions. Finally, the vehicle’s fuel and oxidizer tanks can be refueled using an in situ methane and oxygen production system, enabling its sustainable use on Mars.

Item Type: Article
Subjects: STM Open Press > Engineering
Depositing User: Unnamed user with email support@stmopenpress.com
Date Deposited: 11 Apr 2023 06:02
Last Modified: 09 May 2024 12:31
URI: http://journal.submissionpages.com/id/eprint/923

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