| タイトル | Comparison of Aero-Propulsive Performance Predictions for Distributed Propulsion Configurations |
| 本文(外部サイト) | http://hdl.handle.net/2060/20170001218 |
| 著者(英) | Viken, Sally A.; Derlaga, Joseph M.; Stoll, Alex M.; Carter, Melissa B.; Borer, Nicholas K.; Deere, Karen A.; Patterson, Michael D.; Litherland, Brandon L. |
| 発行日 | 2017-01-09 |
| 言語 | eng |
| 内容記述 | NASA's X-57 "Maxwell" flight demonstrator incorporates distributed electric propulsion technologies in a design that will achieve a significant reduction in energy used in cruise flight. A substantial portion of these energy savings come from beneficial aerodynamic-propulsion interaction. Previous research has shown the benefits of particular instantiations of distributed propulsion, such as the use of wingtip-mounted cruise propellers and leading edge high-lift propellers. However, these benefits have not been reduced to a generalized design or analysis approach suitable for large-scale design exploration. This paper discusses the rapid, "design-order" toolchains developed to investigate the large, complex tradespace of candidate geometries for the X-57. Due to the lack of an appropriate, rigorous set of validation data, the results of these tools were compared to three different computational flow solvers for selected wing and propulsion geometries. The comparisons were conducted using a common input geometry, but otherwise different input grids and, when appropriate, different flow assumptions to bound the comparisons. The results of these studies showed that the X-57 distributed propulsion wing should be able to meet the as-designed performance in cruise flight, while also meeting or exceeding targets for high-lift generation in low-speed flight. |
| NASA分類 | Aircraft Propulsion and Power; Aircraft Design, Testing and Performance |
| レポートNO | NF1676L-24758 |
| 権利 | Copyright, Distribution as joint owner in the copyright |
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