Aiaa Aviation 2020 Forum 2020
DOI: 10.2514/6.2020-3186
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Hybrid Surrogate-Based Rubber Engine Model for Aircraft Multidisciplinary Design Optimization

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Cited by 2 publications
(9 citation statements)
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“…Seitz et al [17] created a purely surrogate-based rubber engine model that can provide the continuous operational performance over the flight envelope for each engine individually. Häßy et al [18], author of this paper, presented a concept for a hybrid surrogate-based approach that combines aspects of 'direct-integration' with a 'surrogate-based' concept. This hybrid concept uses surrogate models to store design information for a range of different engine designs.…”
Section: B State Of the Artmentioning
confidence: 99%
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“…Seitz et al [17] created a purely surrogate-based rubber engine model that can provide the continuous operational performance over the flight envelope for each engine individually. Häßy et al [18], author of this paper, presented a concept for a hybrid surrogate-based approach that combines aspects of 'direct-integration' with a 'surrogate-based' concept. This hybrid concept uses surrogate models to store design information for a range of different engine designs.…”
Section: B State Of the Artmentioning
confidence: 99%
“…The purpose of this publication is to present the application of the hybrid surrogate-based rubber engine approach that was proposed by Häßy et al in [18]. Therefore, a rubberized generic geared turbofan with an entry into service in 2035 is integrated into a collaborative workflow for OAD to equip a long-haul, wide-body aircraft with different suitably sized engines from a multidimensional design space.…”
Section: Objectives and Research Questionsmentioning
confidence: 99%
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“…In order to cover the most important coupling influences between the aircraft and the engine during the MDO, not only performance parameters like the fuel consumption but also the engine dimensions, weight and center of gravity have to be provided. Therefore, an engine design methodology has been developed that combines thermodynamic cycle analysis with a knowledge-based procedure for geometry modeling and a semi-empirical part-based method for engine weight estimation [28]. The design of the thermodynamic cycle is performed within an iterative process considering technological constraints as well as requirements arising from the overall aircraft design, e.g.…”
Section: Fig 24 Representation Of Load Introduction Areas Of the Xrf1...mentioning
confidence: 99%
“…The combination of the geometry and the weight of parts leads to the center of gravity of the engine. In order to integrate the engine design into the MDO process, the approach of a hybrid surrogate-based rubber engine model was pursued [28]. The rubber engine model covers a range of engine designs for different combinations of design variables and requirements.…”
Section: Fig 24 Representation Of Load Introduction Areas Of the Xrf1...mentioning
confidence: 99%