Stability and Control Investigations in Early Stages of Aircraft Design
| Autor: | Carsten M. Liersch, Gertjan Looye, Yasim Julian Hasan, Thomas Klimmek, Jan Flink, Sebastian Freund, Erwin Moerland, Till Pfeiffer, Richard Kuchar, Mario Schrader, Sebastian Zenkner |
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| Rok vydání: | 2018 |
| Předmět: |
020301 aerospace & aeronautics
Tailplane Stability and Control Process (engineering) Computer science Handling Qualities Stability (learning theory) Multidisciplinary Process Chains Aircraft Design Context (language use) 02 engineering and technology Aerodynamics Unconventional Aircraft 01 natural sciences Sizing 010305 fluids & plasmas RCE 0203 mechanical engineering Flight dynamics Data exchange 0103 physical sciences Systems engineering CPACS |
| Popis: | This paper provides an overview of current activities of DLR (German Aerospace Center) with respect to stability and control investigations in the context of early stages of aircraft design. For this purpose, DLR follows an interdisciplinary and multi-level design approach. Using an integration framework in combination with a central data exchange format, largely automated process chains are set up that combine calculation and simulation capabilities of the multitude of disciplines required in early aircraft design. Rather than using empirical relations and assumptions based on experience, the underlying methods applied by the tools are mainly based on physical model representations. The major aim of this design approach is to generate all relevant data needed for stability and control investigations, including aerodynamic damping derivatives and to assemble them within a flight dynamics model. Not only does this approach allow for an early consideration of stability and control characteristics, but it also respects interdisciplinary effects and enables automated design changes. This paper describes the infrastructure used for setting up the described process. It presents disciplinary tools used to calculate engine performance maps, calculate aerodynamic performance maps and structural properties, generate flight dynamics models with associated control laws and to assess aircraft handling qualities. Furthermore, this paper provides application examples of early stability and control considerations, using integrated interdisciplinary process chains. This comprises a handling qualities assessment under uncertainty considerations and vertical tailplane sizing for a blended wing body. In addition, engine and split flap sizing processes for an unmanned combat aerial vehicle are shown. The interdisciplinary design approach presented here, serves to find a well justified early configuration and reduces the risk of later design changes. |
| Databáze: | OpenAIRE |
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