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Article Dans Une Revue Scientific Reports Année : 2023

$$CO_2$$ footprint minimization of solar-powered HALE using MDO and eco-material selection

Résumé

Abstract Multidisciplinary Design Optimization (MDO) enables one to reach a better solution than by optimizing each discipline independently. In particular, the optimal structure of a drone varies depending on the selected material. The $$CO_2$$ C O 2 footprint of a solar-powered High Altitude Long Endurance (HALE) drone is optimized here, where the structural materials used is one of the design variables. Optimization is performed using a modified version of OpenAeroStruct, a framework based on OpenMDAO. Our EcoHale framework is validated on a classical HALE testcase in the MDO community (FBhale) constructed using high-fidelity codes compared to our low-fidelity approach. The originality of our work is to include two specific disciplines (energy and environment) to adapt to a new problem of $$CO_2$$ C O 2 minimization. The choice of eco-materials is performed in the global MDO loop from a choice of discrete materials . This is achieved through a variable relaxation, enabling the use of continuous optimization algorithms inspired from multimaterial topology optimization. Our results show that, in our specific case of electric drone, the optimal material in terms of $$CO_2$$ C O 2 footprint is also the optimal material in terms of weight. It opens the door to new researches on digital microarchitectured materials that will decrease the $$CO_2$$ C O 2 footprint of the drone.

Dates et versions

hal-04171232 , version 1 (26-07-2023)

Identifiants

Citer

Edouard Duriez, Víctor Manuel Guadaño Martín, Joseph Morlier. $$CO_2$$ footprint minimization of solar-powered HALE using MDO and eco-material selection. Scientific Reports, 2023, 13 (1), pp.11994. ⟨10.1038/s41598-023-39221-3⟩. ⟨hal-04171232⟩
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