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| dc.identifier.uri | http://dx.doi.org/10.15488/3316 | |
| dc.identifier.uri | http://www.repo.uni-hannover.de/handle/123456789/3346 | |
| dc.contributor.author | Hoelzen, Julian
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| dc.contributor.author | Liu, Yaolong
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| dc.contributor.author | Bensmann, Boris
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| dc.contributor.author | Winnefeld, Christopher
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| dc.contributor.author | Elham, Ali
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| dc.contributor.author | Friedrichs, Jens
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| dc.contributor.author | Hanke-Rauschenbach, Richard
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| dc.date.accessioned | 2018-05-18T10:17:57Z | |
| dc.date.available | 2018-05-18T10:17:57Z | |
| dc.date.issued | 2018 | |
| dc.identifier.citation | Hoelzen, J.; Liu, Y.; Bensmann, B.; Winnefeld, C.; Elham, A.; Friedrichs, J. et al.: Conceptual design of operation strategies for hybrid electric aircraft. In: Energies 11 (2018), Nr. 1, 217. DOI: https://doi.org/10.3390/en11010217 | |
| dc.description.abstract | Ambitious targets to reduce emissions caused by aviation in the light of an expected ongoing rise of the air transport demand in the future drive the research of propulsion systems with lower CO2 emissions. Regional hybrid electric aircraft (HEA) powered by conventional gas turbines and battery powered electric motors are investigated to test hybrid propulsion operation strategies. Especially the role of the battery within environmentally friendly concepts with significantly reduced carbon footprint is analyzed. Thus, a new simulation approach for HEA is introduced. The main findings underline the importance of choosing the right power-to-energy-ratio of a battery according to the flight mission. The gravimetric energy and power density of the electric storages determine the technologically feasibility of hybrid concepts. Cost competitive HEA configurations are found, but do not promise the targeted CO2 emission savings, when the well-to-wheel system is regarded with its actual costs. Sensitivity studies are used to determine external levers that favor the profitability of HEA. © 2018 by the authors. | eng |
| dc.language.iso | eng | |
| dc.publisher | Basel : MDPI AG | |
| dc.relation.ispartofseries | Energies 11 (2018), Nr. 1 | |
| dc.rights | CC BY 4.0 Unported | |
| dc.rights.uri | https://creativecommons.org/licenses/by/4.0/ | |
| dc.subject | Battery strategy | eng |
| dc.subject | Hybrid electric aircraft | eng |
| dc.subject | Overall aircraft design | eng |
| dc.subject | Propulsion design | eng |
| dc.subject | Regional aircraft | eng |
| dc.subject | Wingtip propellers | eng |
| dc.subject | Carbon dioxide | eng |
| dc.subject | Carbon footprint | eng |
| dc.subject | Conceptual design | eng |
| dc.subject | Electric batteries | eng |
| dc.subject | Electric power system interconnection | eng |
| dc.subject | Emission control | eng |
| dc.subject | Gas turbines | eng |
| dc.subject | Propulsion | eng |
| dc.subject | Aircraft design | eng |
| dc.subject | Battery powered electric motor | eng |
| dc.subject | Battery strategy | eng |
| dc.subject | Electric aircrafts | eng |
| dc.subject | Operation strategy | eng |
| dc.subject | Propulsion system | eng |
| dc.subject | Sensitivity studies | eng |
| dc.subject | Simulation approach | eng |
| dc.subject | Aircraft propellers | eng |
| dc.subject.ddc |
660 | Technische Chemie
|
ger |
| dc.title | Conceptual design of operation strategies for hybrid electric aircraft | eng |
| dc.type | Article | |
| dc.type | Text | |
| dc.relation.issn | 1996-1073 | |
| dc.relation.doi | https://doi.org/10.3390/en11010217 | |
| dc.bibliographicCitation.issue | 1 | |
| dc.bibliographicCitation.volume | 11 | |
| dc.bibliographicCitation.firstPage | 217 | |
| dc.description.version | publishedVersion | |
| tib.accessRights | frei zug�nglich |
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