CUED Publications database

Proof of concept study for fuselage boundary layer ingesting propulsion

Seitz, A and Habermann, AL and Peter, F and Troeltsch, F and Castillo Pardo, A and Della Corte, B and Van Sluis, M and Goraj, Z and Kowalski, M and Zhao, X and Grönstedt, T and Bijewitz, J and Wortmann, G (2021) Proof of concept study for fuselage boundary layer ingesting propulsion. Aerospace, 8. pp. 1-65.

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Key results from the EU H2020 project CENTRELINE are presented. The research activities undertaken to demonstrate the proof of concept (technology readiness level-TRL 3) for the so-called propulsive fuselage concept (PFC) for fuselage wake-filling propulsion integration are discussed. The technology application case in the wide-body market segment is motivated. The developed performance bookkeeping scheme for fuselage boundary layer ingestion (BLI) propulsion integration is reviewed. The results of the 2D aerodynamic shape optimization for the bare PFC configuration are presented. Key findings from the high-fidelity aero-numerical simulation and aerodynamic validation testing, i.e., the overall aircraft wind tunnel and the BLI fan rig test campaigns, are discussed. The design results for the architectural concept, systems integration and electric machinery pre-design for the fuselage fan turbo-electric power train are summarized. The design and performance implications on the main power plants are analyzed. Conceptual design solutions for the mechanical and aerostructural integration of the BLI propulsive device are introduced. Key heuristics deduced for PFC conceptual aircraft design are presented. Assessments of fuel burn, NOx emissions, and noise are presented for the PFC aircraft and benchmarked against advanced conventional technology for an entry-into-service in 2035. The PFC design mission fuel benefit based on 2D optimized PFC aero-shaping is 4.7%.

Item Type: Article
Divisions: Div A > Turbomachinery
Depositing User: Cron Job
Date Deposited: 23 Jan 2021 20:31
Last Modified: 01 Apr 2021 04:35
DOI: 10.3390/aerospace8010016