Multi-fidelity design optimization of a long-range blended wing body aircraft with new airframe technologies
Multi-fidelity design optimization of a long-range blended wing body aircraft with new airframe technologies
The German Cluster of Excellence SE²A (Sustainable and Energy Efficient Aviation) is established in order to investigate the influence of game-changing technologies on the energy efficiency of future transport aircraft. In this paper, the preliminary investigation of the four game-changing technologies active flow control, active load alleviation, boundary layer ingestion, and novel materials and structure concepts on the performance of a long-range Blended Wing Body (BWB) aircraft is presented. The BWB that was equipped with the mentioned technologies was designed and optimized using the multi-fidelity aircraft design code SUAVE with a connection to the Computational Fluid Dynamics (CFD) code SU2. The conceptual design of the BWB aircraft is performed within the SUAVE framework, where the influence of the new technologies is investigated. In the second step, the initially designed BWB aircraft is improved by an aerodynamic shape optimization while using the SU2 CFD code. In the third step, the performance of the optimized aircraft is evaluated again using the SUAVE code. The results showed more than 60% reduction in the aircraft fuel burn when compared to the Boeing 777
Karpuk, S.
583b7aff-008d-4d29-b697-01745a423095
Liu, Yaolong
621975c3-5440-4f2c-b313-4e724228220d
Elham, A.
676043c6-547a-4081-8521-1567885ad41a
2020
Karpuk, S.
583b7aff-008d-4d29-b697-01745a423095
Liu, Yaolong
621975c3-5440-4f2c-b313-4e724228220d
Elham, A.
676043c6-547a-4081-8521-1567885ad41a
Karpuk, S., Liu, Yaolong and Elham, A.
(2020)
Multi-fidelity design optimization of a long-range blended wing body aircraft with new airframe technologies.
Aerospace, 7 (7), [87;].
(doi:10.3390/AEROSPACE7070087).
Abstract
The German Cluster of Excellence SE²A (Sustainable and Energy Efficient Aviation) is established in order to investigate the influence of game-changing technologies on the energy efficiency of future transport aircraft. In this paper, the preliminary investigation of the four game-changing technologies active flow control, active load alleviation, boundary layer ingestion, and novel materials and structure concepts on the performance of a long-range Blended Wing Body (BWB) aircraft is presented. The BWB that was equipped with the mentioned technologies was designed and optimized using the multi-fidelity aircraft design code SUAVE with a connection to the Computational Fluid Dynamics (CFD) code SU2. The conceptual design of the BWB aircraft is performed within the SUAVE framework, where the influence of the new technologies is investigated. In the second step, the initially designed BWB aircraft is improved by an aerodynamic shape optimization while using the SU2 CFD code. In the third step, the performance of the optimized aircraft is evaluated again using the SUAVE code. The results showed more than 60% reduction in the aircraft fuel burn when compared to the Boeing 777
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Published date: 2020
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Local EPrints ID: 470422
URI: http://eprints.soton.ac.uk/id/eprint/470422
ISSN: 2226-4310
PURE UUID: bb0d75ae-5cc9-4cbb-a17d-12e412a22f1b
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Date deposited: 10 Oct 2022 16:58
Last modified: 16 Mar 2024 21:27
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Author:
S. Karpuk
Author:
Yaolong Liu
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