SYSTEM ARCHITECTURES FOR THERMAL MANAGEMENT OF HYBRID-ELECTRIC AIRCRAFT - FUTPRINT50
Creators
- Walter Affonso Jr.1
- Renata T. Tavares1
- Felipe R. Barbosa2
- Ricardo Gandolf1
- Ricardo J. N. dos Reis2
- Carlos R. I. da Silva1
- Timoleon Kipouros3
- Panagiotis Laskaridis3
- Hossein Balaghi Enalou3
- Andrei Chekin4
- Aleksey Kukovinets4
- Konstantin Gubernatorov4
- Yury Ravikovich5
- Nikolay Ivanov5
- Leonid Ponyaev5
- Dmitry Holobtsev5
- 1. Embraer S.A., Rodovia Presidente Dutra, Km 134, S˜ao Jos´e dos Campos, 12247-004, Brazil
- 2. Embraer Portugal, Parque Da Ind´ustria Aeron´autica De Evora, Herdade De Pinheiro E Casa ´ Branca Lt. A-I, Horta Das Figueiras, Evora, CM1094, Portugal
- 3. Cranfield University, College Road, Cranfield, MK43 0AL, United Kindom
- 4. State Research Institute of Aviation Systems (GosNIIAS), Viktorenko street, 7, Moscow, 125319, Russia
- 5. Moscow Aviation Institute (MAI), Volokolamskoe shosse, 4, Moscow, 125993, Russia
Description
Electric and Hybrid-Electric Aircraft (HEA) propulsion system designs shall bring challenges at aircraft and systems level, mainly in propulsion, electric and thermal management systems (TMS). The electrification of the propulsion system relies on large and high-power electrical equipment (e.g., electrical motors, converters, power electronics, batteries, and others) that dissipate heat at a rate at least one order of magnitude higher than conventional propulsion aircraft systems. As a result, high impacts on weight, drag and power consumption of the TMS/cooling systems at the aircraft level are expected. This paper proposes potential technologies to perform the thermal management of future electric and HEA, in the context of FUTPRINT50 project. For each technology, relevant aspects such as its integration to aircraft, safety, operational and maintenance impacts, certification, technologies readiness level (TRL) and the latest research works are analysed. A quantitative comparison of the several technologies is also proposed considering weight, volume, electric power consumption, pneumatic air flow and cooling air flow per cooling effect. Lastly, we present a set of potential TMS architectures for HEA.
Files
Affonso_2022_IOP_Conf._Ser.__Mater._Sci._Eng._1226_012062.pdf
Files
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