2020
DOI: 10.2514/1.c035509
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Multidisciplinary Design Optimization Framework with Coupled Derivative Computation for Hybrid Aircraft

Abstract: Hybrid-electric aircraft are a potential way to reduce the environmental footprint of aviation. Research aimed at this subject has been pursued over the last decade; nevertheless, at this stage, a full overall aircraft design procedure is still an open issue. This work proposes to enrich the procedure for the conceptual design of hybrid aircraft found in literature through the definition of a multidisciplinary design optimization (MDO) framework aimed at handling design problems for such kinds of aircraft. The… Show more

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Cited by 47 publications
(26 citation statements)
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“…A tightly coupled modeling environment is built between the propulsion system and the trajectory analysis with a simplified approximated aerodynamic model. A multidisciplinary (MDO) technique was implemented with the integration of the Fixed Aircraft Sizing Tool (FAST) sizing tool to OpenMDAO framework to conduct design optimization in a distributed hybrid electric system [161]. pyOptSparse is a similar optimization framework with Sparse Nonlinear Optimizer (SNOPT) utilized in association with the SUAVE aircraft sizing tool for the design study of 19 PAX aircraft, with BLI and DEP effects [162].…”
Section: Multidisciplinary Optimization Frameworkmentioning
confidence: 99%
See 1 more Smart Citation
“…A tightly coupled modeling environment is built between the propulsion system and the trajectory analysis with a simplified approximated aerodynamic model. A multidisciplinary (MDO) technique was implemented with the integration of the Fixed Aircraft Sizing Tool (FAST) sizing tool to OpenMDAO framework to conduct design optimization in a distributed hybrid electric system [161]. pyOptSparse is a similar optimization framework with Sparse Nonlinear Optimizer (SNOPT) utilized in association with the SUAVE aircraft sizing tool for the design study of 19 PAX aircraft, with BLI and DEP effects [162].…”
Section: Multidisciplinary Optimization Frameworkmentioning
confidence: 99%
“…The tool runs atop the OpenMDAO framework and utilizes the analytic derivative of the models to perform gradient based optimization. [161,163] PEGASUS Design A low-order multidisciplinary optimization environment is used for sizing the aircraft. The FLOPS tool is used for computing the aerodynamics, propulsion weight, performance and geometry data.…”
Section: Gt-heat Toolmentioning
confidence: 99%
“…This section presents an aircraft design application where the SEGO solvers lead to a significant improvement. We target to design a hybrid aircraft, featuring distributed electric propulsion [19,42,43], the related concept of such aircraft is shown in Fig. 15.…”
Section: An Application To Aircraft Designmentioning
confidence: 99%
“…The fixed-wing aircraft sizing tool (FAST) [44] is used to explore this aircraft concept and is fully coded in Python. It is based on engineering methods, to have reliable results with low computa- tional cost [45].…”
Section: An Application To Aircraft Designmentioning
confidence: 99%
“…In reference [23,24] a conceptual design of hybrid-electric aircraft has been presented. Some authors have defined a multidisciplinary optimization framework, as in [25], to design a single aisle aircraft with distributed electric fans. All the previous works only consider hybridization of tube-and-wing configuration whereas hybridization of disruptive configurations (e.g.…”
Section: Introductionmentioning
confidence: 99%