Performance assessment of a boundary layer ingesting distributed propulsion system at off-design

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dc.contributor.authorGoldberg, Chana
dc.contributor.authorNalianda, Devaiah
dc.contributor.authorPilidis, Pericles
dc.contributor.authorSingh, Riti
dc.contributor.authorLaskaridis, Panagiotis
dc.date.accessioned2017-10-16T14:33:00Z
dc.date.available2017-10-16T14:33:00Z
dc.date.issued2017-06-12
dc.description.abstractAs research on boundary layer ingesting aircraft concepts progresses, it becomes important to develop methods that may be used to model such propulsion systems not only at design point, but also over the full ight envelope. This research presents a methodology and framework for simulating the performance of boundary layer ingesting propulsion systems at o -design conditions. The method is intended for use as a preliminary design tool that may be used to explore the design space and identify design challenges or potential optimum con gurations. The method presented in this research enables the rapid analysis of novel BLI con gurations at a preliminary design stage. The method was applied to a case study of NASA's N3-X aircraft, a blended wing body concept with a distributed propulsor array ingesting the airframe boundary layer. The performance of two propulsor in the array was compare, one at the airframe centreline and one at the extreme edge of the array. Due to di erence in ow conditions, the centreline propulsor was shown to be more e cient at o -design than the end propulsor. However, this di erence in e ciency disappeared at sea level static where the boundary layer thickness is negligible and mass ow ratio is high. Di erence in thrust produce by the two propulsors was instead due their di erent sizes. Performance of the propulsor array as a whole was also presented both independently and including a link to a pair of turbogenerators to provide power. At o design, it was found that there was a discrepancy between the maximum power available from the turbogenerators at o -design operating points and that demanded by the propulsor array operating at 100% fan rotational speed. This discrepancy means that the propulsor array's performance is limited by the turbogenerators at o -design, particularly for low speed, low altitude operation.en_UK
dc.identifier.citationChana Goldberg, Devaiah Nalianda, Pericles Pilidis, and Riti Singh. Performance assessment of a boundary layer ingesting distributed propulsion system at off-design, 53rd AIAA/SAE/ASEE Joint Propulsion Conference, AIAA Propulsion and Energy Forum, (AIAA 2017-5055)en_UK
dc.identifier.isbn9781624105111
dc.identifier.urihttps://dspace.lib.cranfield.ac.uk/handle/1826/12636
dc.language.isoenen_UK
dc.publisherAIAAen_UK
dc.rightsAttribution-Non-Commercial 3.0 (CC BY-NC 3.0) You are free to: Share — copy and redistribute the material in any medium or format, Adapt — remix, transform, and build upon the material. The licensor cannot revoke these freedoms as long as you follow the license terms. Under the following terms: Attribution — You must give appropriate credit, provide a link to the license, and indicate if changes were made. You may do so in any reasonable manner, but not in any way that suggests the licensor endorses you or your use. Information: Non-Commercial — You may not use the material for commercial purposes. No additional restrictions — You may not apply legal terms or technological measures that legally restrict others from doing anything the license permits.
dc.titlePerformance assessment of a boundary layer ingesting distributed propulsion system at off-designen_UK
dc.typeConference paperen_UK

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