The effect of inlet distortion from curved intake ducts on jet engine fan stability is an important consideration for next generation passenger aircraft such as the boundary layer ingestion (BLI) Silent Aircraft. Highly complex inlet flows which occur can significantly affect fan stability. Future aircraft designs are likely to feature more severe inlet distortion, pressing the need to understand the important factors influencing design. This paper presents the findings from a large CFD investigation into which aspects of inlet distortion cause the most significant reductions in stall margin and, therefore, which flow patterns should be targeted by mitigating technology. The study considers the following aspects of distortion commonly obser...
Copyright © 2014 by ASME. Boundary Layer Ingesting (BLI) turbofan engines could offer reduced fuel b...
In the present study, unsteady flow interaction between an ultra-compact inlet and a transonic fan s...
Boundary Layer Ingestion (BLI) technology could achieve a fuel burn reduction of up to 15%. However,...
The effect of inlet distortion from curved intake ducts on jet engine fan stability is an important ...
Inlet flow distortion can comprise complex flow patterns and significantly affect transonic fan roto...
An increased understanding of how inlet flow distortion affects transonic fans enables improved fan ...
Jet engines with boundary layer ingestion (BLI) could offer significant reductions in aircraft fuel ...
Jet engines with Boundary Layer Ingestion (BLI) could offer significant reductions in aircraft fuel ...
Future aircraft are expected to have a high level of fuselageengine integration, exposing the propul...
Inlet distortion is typically encountered during off-design conditions on civil aircraft and in S-du...
The viability of boundary layer ingesting (BLI) engines for future aircraft propulsion is dependent ...
Inlet distortion is typically encountered during off-design conditions on civil aircraft and in S-du...
To reduce fuel-burn and emissions there is a drive towards higher bypass ratio and smaller high-pres...
Inlet distortion often occurs at off-design points when flow separates within an intake. This unstea...
Inlet distortion often occurs under off-design conditions when a flow separates within an intake and...
Copyright © 2014 by ASME. Boundary Layer Ingesting (BLI) turbofan engines could offer reduced fuel b...
In the present study, unsteady flow interaction between an ultra-compact inlet and a transonic fan s...
Boundary Layer Ingestion (BLI) technology could achieve a fuel burn reduction of up to 15%. However,...
The effect of inlet distortion from curved intake ducts on jet engine fan stability is an important ...
Inlet flow distortion can comprise complex flow patterns and significantly affect transonic fan roto...
An increased understanding of how inlet flow distortion affects transonic fans enables improved fan ...
Jet engines with boundary layer ingestion (BLI) could offer significant reductions in aircraft fuel ...
Jet engines with Boundary Layer Ingestion (BLI) could offer significant reductions in aircraft fuel ...
Future aircraft are expected to have a high level of fuselageengine integration, exposing the propul...
Inlet distortion is typically encountered during off-design conditions on civil aircraft and in S-du...
The viability of boundary layer ingesting (BLI) engines for future aircraft propulsion is dependent ...
Inlet distortion is typically encountered during off-design conditions on civil aircraft and in S-du...
To reduce fuel-burn and emissions there is a drive towards higher bypass ratio and smaller high-pres...
Inlet distortion often occurs at off-design points when flow separates within an intake. This unstea...
Inlet distortion often occurs under off-design conditions when a flow separates within an intake and...
Copyright © 2014 by ASME. Boundary Layer Ingesting (BLI) turbofan engines could offer reduced fuel b...
In the present study, unsteady flow interaction between an ultra-compact inlet and a transonic fan s...
Boundary Layer Ingestion (BLI) technology could achieve a fuel burn reduction of up to 15%. However,...