Multi-Objective Optimization for Improving Weight and Fault Characteristics of a DC HTS Cable in Cryo-Electric Aircraft-Reference-Cited by-同舟云学术

Multi-Objective Optimization for Improving Weight and Fault Characteristics of a DC HTS Cable in Cryo-Electric Aircraft

Published:2022-11-26 Issue:12 Volume:9 Page:753
ISSN:2226-4310
Container-title:Aerospace
language:en
Short-container-title:Aerospace

Author:

Sadeghi Alireza,Yazdani-Asrami Mohammad^ORCID

Abstract

The aim of the presented study is to optimize the different classes of high-temperature superconducting (HTS) DC cables for improving their performances in a cryo-electric aircraft considering their weight, peak temperature during faults, and the ratio of current passing through each tape to the critical current of HTS tapes. These terms were interpreted into three objective functions, and a multi-objective optimization algorithm known as non-dominated sorting genetic algorithm II was used to find the optimal solution clusters. The cable optimization was conducted for different former materials by changing the former thickness and radius. Results showed that the DC HTS cables with aluminum former have the lowest weight while cables with copper formers have the best thermal performance against faults.

Publisher

MDPI AG

Subject

Aerospace Engineering

Link

https://www.mdpi.com/2226-4310/9/12/753/pdf

Reference28 articles.

1. Ciliberti, D., Vecchia, P.D., Memmolo, V., Nicolosi, F., Wortmann, G., and Ricci, F. (2022). The Enabling Technologies for a Quasi-Zero Emissions Commuter Aircraft. Aerospace, 9.

2. Sahoo, S., Zhao, X., and Kyprianidis, K. (2020). A Review of Concepts, Benefits, and Challenges for Future Electrical Propulsion-Based Aircraft. Aerospace, 7.

3. Darecki, M., Edelstenne, C., Enders, T., Fernandez, E., Hartman, P., Herteman, J.P., Kerkloh, M., King, I., Ky, P., and Mathieu, M. (2011). Flightpath 2050 Europe’s Vision for Aviation: Maintaining Global Leadership and Serving Society’s Needs, Publications Office of the European Union.

4. Filipenko, M., Biser, S., Boll, M., Corduan, M., Noe, M., and Rostek, P. (2020). Comparative Analysis and Optimization of Technical and Weight Parameters of Turbo-Electric Propulsion Systems. Aerospace, 7.

5. Rao, A.G., Yin, F., and Werij, H.G.C. (2020). Energy Transition in Aviation: The Role of Cryogenic Fuels. Aerospace, 7.

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