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Development of a Multi-Disciplinary Optimization Framework for Nonconventional Aircraft Configurations in PACELAB APD Virginia Tech

SAE Technical Papers (1906-current) Available online

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Format:
Conference/Event
Author/Creator:
Riggins, Riggins, author.
Contributor:
Kapania, Rakesh
Locatelli, Davide
Poquet, Thomas
Schetz, Joseph
Conference Name:
SAE 2015 AeroTech Congress & Exhibition (2015-09-22 : Seattle, Washington, United States)
Language:
English
Physical Description:
1 online resource
Place of Publication:
Warrendale, PA SAE International 2015
Summary:
1AbstractMost traditional methods and equations for estimating the structural and nonstructural weights and aerodynamics used at the aircraft conceptual design phase are empirical relations developed for conventional tube-and-wing aircraft. In a computation-heavy design process, such as Multidisciplinary Design and Optimization (MDO) simplicity of calculation is paramount, and for conventional configurations the aforementioned approaches work well enough for conceptual design. But, for non-traditional designs such as strut-braced winged aircraft, empirical data is generally not available and the usual methods can no longer apply. One solution to this is a movement toward generalized physics-based methods that can apply equally well to conventional or non-traditional configurations. In this work, physics-based methods for calculating the aerodynamic drag and wing weight of an aircraft were implemented in a commercial aircraft conceptual design and optimization tool, PACELAB Aircraft Preliminary Design (APD), which in its default form utilizes traditional empirical methods for estimating these characteristics. The new methods are based on past MDO work at Virginia Tech and are general enough to appropriately capture the physics of nonconventional models, yet are also simple enough that they can be realistically applied in an MDO environment. Special attention has been paid to capturing the transonic wave drag effects encountered through the cruise regime. Preliminary design optimizations for minimum fuel consumption were performed in the extended version of PACELAB APD for a mid-range regional airliner type mission, and results show significant fuel savings using a strut-braced wing configuration
Notes:
Vendor supplied data
Publisher Number:
2015-01-2564
Access Restriction:
Restricted for use by site license

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