SUAVE: An Open-Source Environment for Conceptual Vehicle Design and Optimization

Botero, Emilio; Wendorff, Andrew; MacDonald, T.; Variyar, Anil; Vegh, Julius M.; Lukaczyk, Trent; Alonso, Juan J.; Orra, Tarik H.; Silva, Carlos Ilario da

doi:10.2514/6.2016-1275

Cited by 41 publications

(28 citation statements)

References 5 publications

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“…It highlights the most relevant methods developed for the current hybrid electric propulsion applications instead of giving a general detailed description of the tool. Figure 3 describes the general approach of the modeling structure, which follows a typical aircraft conceptual/preliminary design logic [52][53][54][55]. Some important points are discussed in the following to better illustrate the features and modeling strategies.…”

Section: Simulation Structurementioning

confidence: 99%

Conceptual Design of Operation Strategies for Hybrid Electric Aircraft

et al. 2018

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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 CO 2 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 CO 2 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.

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Section: Simulation Structurementioning

confidence: 99%

Conceptual Design of Operation Strategies for Hybrid Electric Aircraft

et al. 2018

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“…Similar to the recent work endeavored at Stanford University [40] and MIT [30], the flexible physic-based aircraft design and technology integration tool being developed in the frame of the EWL project has the advantage of handling technology assessment problems with a wide design space, which is extremely important for early-stage aircraft configuration and technology identifications. In addition, the design tool is built to be able to incorporate multidisciplinary results for building surrogates, which can give reasonably accurate predictions at the overall aircraft level.…”

Section: General Approachmentioning

confidence: 99%

“…In addition, the design tool is built to be able to incorporate multidisciplinary results for building surrogates, which can give reasonably accurate predictions at the overall aircraft level. Following a typical aircraft conceptual/preliminary design logic [30,[40][41][42]-especially the very comprehensive aircraft design platforms developed at the TU Braunschweig (PRADO tool [43]) and at the RWTH Aachen University (MICADO tool [42]) in Germany, some features and modelling strategies are illustrated as follows. It has to be noted that the tool developed within the EWL project has a very good compromise between complexity and fidelity levels, which is more suitable for aircraft technology assessment for such a joint research project as compared to other tools already being developed.…”

Section: General Approachmentioning

confidence: 99%

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Exploring Vehicle Level Benefits of Revolutionary Technology Progress via Aircraft Design and Optimization

et al. 2018

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Abstract:It is always a strong motivation for aeronautic researchers and engineers to reduce the aircraft emissions or even to achieve emission-free air transport. In this paper, the impacts of different game-changing technologies together on the reduction of aircraft fuel consumption and emissions are studied. In particular, a general tool has been developed for the technology assessment, integration and also for the overall aircraft multidisciplinary design optimization. The validity and robustness of the tool has been verified through comparative and sensitivity studies. The overall aircraft level technology assessment and optimization showed that promising fuel efficiency improvements are possible. Though, additional strategies are required to reach the aviation emission reduction goals for short and medium range configurations.

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“…A schematic of the overall aeroelastic design framework is shown in Figure 1, and the components of the framework are described in the subsections below. 24,29 is an open-source conceptual design framework under development at the Aerospace Design Lab at Stanford University. It allows the definition of arbitrary aircraft configurations as a collection of wings, fuselages, and engines along with the definition of multiple missions composed of customizable segments.…”

Section: A Aeroelastic Design Frameworkmentioning

confidence: 99%

Design and Optimization of Unconventional Aircraft Configurations with Aeroelastic Constraints

Variyar

Economon

Alonso

2017

55th AIAA Aerospace Sciences Meeting

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The focus of this paper is the inclusion of aeroelastic constraints in the conceptual design loop for conventional and unconventional aircraft design. For configurations like the strut-braced wing, aeroelastic (flutter) instability is a major problem, and the inclusion of aeroelastic constraints early in the conceptual design phase is essential in order to ensure that the design obtained is flight safe. In this paper, we first describe the design tools and their development for performing aeroelastic calculations (static,gust and flutter). The paper then describes a multi-fidelity approach to obtain accurate, yet inexpensive, aeroelastic predictions including flutter speeds. Finally, these aeroelastic predictions are included in the design loop as constraints for the design and optimization of a strut-braced wing configuration.

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SUAVE: An Open-Source Environment for Conceptual Vehicle Design and Optimization

Cited by 41 publications

References 5 publications

Conceptual Design of Operation Strategies for Hybrid Electric Aircraft

Conceptual Design of Operation Strategies for Hybrid Electric Aircraft

Exploring Vehicle Level Benefits of Revolutionary Technology Progress via Aircraft Design and Optimization

Design and Optimization of Unconventional Aircraft Configurations with Aeroelastic Constraints

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