Closer integration between the airframe and the propulsion system is expected for future aircraft to reduce fuel consumption, emissions, weight, and drag. The use of embedded or partially embedded propulsion systems will require the use of complex intakes. However, this can result in unsteady flow distortion, which can adversely affect the propulsion system efficiency and stability. Relative to conventional measurement systems, time-resolved particle image velocimetry provides sufficient spatial and temporal resolution to enable the development of new methods to assess unsteady flow distortion. This work proposes a novel analysis approach to assess the unsteady flow distortion. For an S-duct configuration, the method was successfully used to evaluate the perturbations of the indealized incidence angle. This example showed peaks up to incidence and a duration equivalent to the passing time of three blades. The introduction of a nonuniform total pressure profile at the S-duct inlet increased the probability of peak distortion events with higher magnitude. The method provides an estimate of the likelihood, magnitude, and duration of distortion events and is a new way to evaluate flow distortion that could induce instabilities for the propulsion system.
Novel Method for Evaluating Intake Unsteady Flow Distortion
Journal of Propulsion and Power ; 38 , 1 ; 135-147
01.01.2022
Aufsatz (Konferenz) , Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch