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Electrical Launch Catapult and Landing Decelerator for Fixed-Wing Airborne Wind Energy Systems

Johannes Alexander Müller, Mostafa Yasser Mostafa Khalil Elhashash and Volker Gollnick
Additional contact information
Johannes Alexander Müller: Institute of Air Transportation Systems (ILT), Hamburg University of Technology, 21079 Hamburg, Germany
Mostafa Yasser Mostafa Khalil Elhashash: Institute of Air Transportation Systems (ILT), Hamburg University of Technology, 21079 Hamburg, Germany
Volker Gollnick: Institute of Air Transportation Systems (ILT), Hamburg University of Technology, 21079 Hamburg, Germany

Energies, 2022, vol. 15, issue 7, 1-19

Abstract: This paper presents a (pre)feasibility study of the rail-based ultra-short launch and landing system ElektRail for fixed-wing airborne wind energy systems, such as Ampyx Power. The ElektRail concept promises airborne mass reductions through the elimination of landing gear as well as decreased landing stresses and ground stability requirements, opening possibilities for improved aerodynamics through a single fuselage configuration. Initially designed for operating fixed-wing drones from open fields, the ElektRail concept had to be significantly shortened for application in an airborne wind energy (AWE) context. This shorter size is required due to the much more limited space available at AWE sites, especially on offshore platforms. Hence, a performance enhancement using the integration of a bungee launching and landing system (BLLS) was designed and a system dynamics model for the launch and landing was derived. The results demonstrated the possibility for the ElektRail to be shortened from 140 m to just 19.3 m for use with an optimised tethered aircraft with a mass of 317 kg. A system length below 20 m indicates that an enhanced ElektRail launch and landing concept could be viable for airborne wind energy operations, even with relatively low-tech bungee cord boosters. Linear motor drives with a long stator linear motor actuator could potentially shorten the system length further to just 15 m, as well as provide better control dynamics. An investigation into improved AWE net power outputs due to reduced airborne mass and aerodynamic improvements remains to be conducted.

Keywords: ElektRail; Ampyx Power; AWES; airborne wind energy; UAV; system dynamics; BLLS; landing; launch; acceleration phase; deceleration phase (search for similar items in EconPapers)
JEL-codes: Q Q0 Q4 Q40 Q41 Q42 Q43 Q47 Q48 Q49 (search for similar items in EconPapers)
Date: 2022
References: View references in EconPapers View complete reference list from CitEc
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