Drive unit characteristics of a completely electrical passenger aircraft

Bozhko, S., Hill, C. and Yang, T. (2018). More electric aircraft: systems and modeling. In: Webster J. G. ed., Wiley Encyclopedia of Electrical and Electronics Engineering. Hoboken: John Wiley & Sons, Inc. DOI: https://doi.org/10.1002/047134608X.W836710.1002/047134608X.W8367 Search in Google Scholar

Burke, K. A. (2003). Fuel cells for space science applications. NASA Glenn Research Center, Cleveland, Ohio. In: First International Energy Conversion Engineering Conference. Portsmouth, 17–21 August 2003.10.2514/6.2003-5938 Search in Google Scholar

Cable, T. L., Farmer, S. C., Eckel, A. J. and Setlock, J. A. (2009). Regenerative performance of the NASA symmetrical solid oxide fuel cell design. International Journal of Applied Ceramic Technology, 8(1), pp. 1–12.10.1111/j.1744-7402.2009.02477.x Search in Google Scholar

Climate Change Authority. (2014). Light vehicle emissions standards for australia research report, <http://www.climatechangeauthority.gov.au/files/files/Light%20Vehicle%20Report/Lightvehiclesreport.pdf> [available 02/07/2020]. Search in Google Scholar

Dzierżanowski, P., Kordziński, W., Łyżwiński, M., Otyś, J., Szczeciński, S. and Wiatrek, R. (1983). Aviation Drives - Turbine Jet Engines. Warsaw: Transport and Communication Publishers. Search in Google Scholar

Eco-Healthy Child Care. (2016). Noise pollution, <https://cehn.org/wp-content/uploads/2015/12/Noise_Pollution_9_16.pdf> [available 02/07/2020]. Search in Google Scholar

Gieras, J. F. (2008). Advancements in Electric Machines. Berlin-Heidelberg: Springer, pp. 247–249. Search in Google Scholar

Jaroszewicz, A. (2017). Analysis of the possibility of use of a solid oxide fuel cell as an auxiliary power unit for modern passenger aircraft. Scientific Letters of Rzeszow University of Technology – Mechanics, 89(1), pp. 45–62.10.7862/rm.2017.04 Search in Google Scholar

Maré, J. C. and Fu J. (2017). Review on signal-by-wire and power-by-wire actuation for more electric aircraft. Chinese Journal of Aeronautics, 30(3), pp. 857–870.10.1016/j.cja.2017.03.013 Search in Google Scholar

Mueller, J.-K., Bensmann A., Bensmann B., Fischer T., Kadyk T., Narjes G., Kauth F., Ponick B., Seume J. R., Krewer, U., Hanke-Rauschenbach, R. and Mertens, A. (2018). Design considerations for the electrical power supply of future civil aircraft with active high-lift systems. Energies, 11(1), pp. 1–21.10.3390/en11010179 Search in Google Scholar

Roque, A., Sousa, D. M., Fernão Pires, V. and Margato, E. (2017). Superconductivity and their applications. In: International Conference on Renewable Energies and Power Quality. Malaga, 4–6 April 2017. Search in Google Scholar

Tariq, M., Maswood, A. I., Gajanayake, C. J. and Gupta, A. K. (2017). Aircraft batteries: current trend towards more electric aircraft. IET Electrical Systems in Transportation, 7(2), pp. 93–103.10.1049/iet-est.2016.0019 Search in Google Scholar

Wolkiewicz, M. and Skowron, M. (2017). Diagnostic system for induction motor stator winding faults based on axial flux. Power Electronics and Drives, 2(2), pp. 137–150. Search in Google Scholar

Yang, Z., Qu, J., Yingchuan, M.A. and Shi, X. (2015). Modeling and simulation of power distribution system in more electric aircraft. Journal of Electrical and Computer Engineering, 2015(8), pp. 1–7.10.1155/2015/847624 Search in Google Scholar