ECAT: An Engine Component Aerothermal Facility at the University of Oxford

Author:

Kirollos Benjamin1,Lubbock Roderick1,Beard Paul1,Goenaga Frédéric2,Rawlinson Anton2,Janke Erik3,Povey Thomas1

Affiliation:

1. University of Oxford, Oxford, UK

2. Rolls-Royce plc, Derby, UK

3. Rolls-Royce Deutschland Ltd & Co KG, Blankenfelde-Mahlow, Germany

Abstract

This paper describes a new engine-parts facility at the University of Oxford for high technology-readiness-level research, new technology demonstration, and for engine component validation. The Engine Component AeroThermal (ECAT) facility has a modular working section which houses a full annulus of engine components. The facility is currently operated with high-pressure nozzle guide vanes from a large civil jet-engine. A high degree of engine similarity is achieved, with matched conditions of Mach number, Reynolds number, and coolant-to-mainstream pressure ratio. For combustor-turbine interaction studies, a combustor simulator module is used, which is capable of both rich-burn and lean-burn combined temperature, swirl and turbulence profiles. The facility is being used for aerothermal optimisation research (e.g., novel cooling systems, aerodynamic optimisation problems, capacity sensitivity studies), computational fluid dynamics validation (aerodynamic predictions, conjugate predictions), and for component validation to accelerate the engine design process. The three key measurement capabilities are: capacity characteristic evaluation to a precision of 0.02%; overall cooling (metal) effectiveness measurements (using a rainbow set of parts if required); and aerodynamic loss evaluation (with realistic cooling, trailing-edge flow etc.). Each of these three capabilities have been separately developed and optimised in other facilities at the University of Oxford in the last 10 years, to refine aspects of facility design, instrumentation design, experimental technique, and theoretical aspects of scaling and reduction of experimental data. The ECAT facility brings together these three research strands with a modular test vehicle for rapid high technology-readiness-level research, demonstration of new technologies, and for engine component validation. The purpose of this paper is to collect in one place — and put in context — the work that led to the development of the ECAT facility, to describe the facility, and to illustrate the accuracy and utility of the techniques by presenting typical data for each of the key measurements. The ECAT facility is a response to the changing requirements of experimental turbomachinery testing, and it is hoped this paper will be of interest to engine designers, researchers, and those involved in major facility developments in both research institutes and engine companies.

Publisher

American Society of Mechanical Engineers

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1. Impact of Lean-Burn Combustor Flow on Nozzle Guide Vane Performance;Journal of Turbomachinery;2024-08-06

2. Unsteady Flows and Component Interaction in Turbomachinery;International Journal of Turbomachinery, Propulsion and Power;2024-04-05

3. Comparison of Eddy Viscosity Models for High Turbulence Nozzle Guide Vane Flows;Journal of Turbomachinery;2024-03-12

4. Aerodynamic and Thermal Field Development of Cooled Transonic HP NGV;Journal of Turbomachinery;2023-11-16

5. Fundamentals of Scaling of Overall Cooling Effectiveness With Temperature Ratio;Journal of Turbomachinery;2023-10-31

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