Pressure recovery in test facility diffusers : an engineering analysis including the effects of afterburning heat release, aerodynamic blockage, and duct expansion

Author

Luke Harley Rogers

Date of Award

8-1991

Degree Type

Thesis

Degree Name

Master of Science

Major

Aerospace Engineering

Major Professor

Roy J. Schulz

Abstract

As engineers design new aircraft engine test facilities to accommodate new technologies such as hydrogen burning variable-cycle engines, they will need methods to easily evaluate diffuser duct performance. In this thesis, a simple control-volume analysis of engine test facility diffuser performance has been embodied in a computer program to predict basic flow conditions such as diffuser exit Mach number, temperature, and pressure, subject to such effects as heat release from afterburning, aerodynamic blockage from flameholding bars, and sudden-expansion of the flow. It was found that straight diffuser ducts result in serious limitations on the Mach number and mass flow rate of the facility bypass air flow, especially when the diffuser flow is partially blocked. The sudden-expansion duct, on the other hand, exhibited superior performance with better static pressure recovery at most conditions and lower exit Mach numbers. Its performance was not seriously degraded by either aerodynamic blockage or heat release in the diffuser.

Recommended Citation

Rogers, Luke Harley, "Pressure recovery in test facility diffusers : an engineering analysis including the effects of afterburning heat release, aerodynamic blockage, and duct expansion. " Master's Thesis, University of Tennessee, 1991.
https://trace.tennessee.edu/utk_gradthes/12517