Performance of a Boundary Layer Ingesting Propulsion System

This thesis presents an assessment of the aerodynamic performance of an aircraft propulsion system, with embedded engines, in the presence of aircraft fuselage bound-ary layer ingestion (BLI). The emphasis is on defining the role that the turbomachin-ery (i.e., the fan, in the ultra high bypass engines considered) plays in establishing the flow benefit due to BLI. A three-dimensional body force approach to fan response to inlet distortion has been utilized to analyze the flow in the engine ducts. In addition to providing quantitative information as to the fuel burn benefit from BLI, the body force approach is also compared with two simpler analyses, one based on the parallel compressor concept and one based on integral boundary layer methodology. It is shown that the distortion transfer across the fan, basically attenuation of the stagnation pressure non-uniformity downstream of the fan compared to that upstream of the fan plays a major role in determining the impact of boundary layer ingestion on fuel burn. This, in turn, puts requirements on the fidelity with which one needs to assess the distortion transfer, and thus the type of models to be used in suc