A detailed knowledge of the flow structure and heat transfer within the rotor disc cavities is required for designing safe and efficient aero-engine compressors with a useful operating range. This paper presents the results from temperature field measurements obtained from the Multiple Cavity test facility at the University of Sussex. This emulates the secondary-air disc-cavity system in an aircraft engine high-pressure compressor. It comprises four externally heated disc-cavities and is supplied by a cool bore flow. The heat transfer is studied with the help of finite-element method using measured temperatures as boundary conditions. A validated 2D steady state heat conduction analysis methodology is also presented alongside Monte Carlo si...
This paper presents new experimental measurements, at conditions representative of an aero engine, o...
The flow and heat transfer inside HP compressor rotating cavities are buoyancy driven and are known ...
The radial clearance between the rotating blades and stationary casing of a gas-turbine compressor d...
Increasing pressures in gas-turbine compressors, particularly in aeroengines where the pressure rati...
In the design of a gas turbine engine it is important to have a good prediction ofthe temperature di...
This article reports on heat transfer measurements made on a rotating test rig representing the inte...
Accurate prediction of heat transfer in compressor cavities is crucial to the design of efficient an...
Surface temperature measurements from two discs of a gas turbine compressor rig are used as boundary...
The change in compressor blade-tip clearance across the flight cycle depends on the expansion of the...
The flow inside cavities between corotating compressor disks of aero-engines is driven by buoyancy, ...
This paper presents a systematic study of flow and heat transfer mechanisms in a compressor disc cav...
This paper makes comparisons between CFD computations and experimental measurements of heat transfer...
The prediction of compressor drum cavity heat transfer is an important factor in the overall design ...
A heated rotating cavity with an axial throughflow of cooling air is used as a model for the flow in...
This paper discusses experimental results from two different build configurations of a heated multip...
This paper presents new experimental measurements, at conditions representative of an aero engine, o...
The flow and heat transfer inside HP compressor rotating cavities are buoyancy driven and are known ...
The radial clearance between the rotating blades and stationary casing of a gas-turbine compressor d...
Increasing pressures in gas-turbine compressors, particularly in aeroengines where the pressure rati...
In the design of a gas turbine engine it is important to have a good prediction ofthe temperature di...
This article reports on heat transfer measurements made on a rotating test rig representing the inte...
Accurate prediction of heat transfer in compressor cavities is crucial to the design of efficient an...
Surface temperature measurements from two discs of a gas turbine compressor rig are used as boundary...
The change in compressor blade-tip clearance across the flight cycle depends on the expansion of the...
The flow inside cavities between corotating compressor disks of aero-engines is driven by buoyancy, ...
This paper presents a systematic study of flow and heat transfer mechanisms in a compressor disc cav...
This paper makes comparisons between CFD computations and experimental measurements of heat transfer...
The prediction of compressor drum cavity heat transfer is an important factor in the overall design ...
A heated rotating cavity with an axial throughflow of cooling air is used as a model for the flow in...
This paper discusses experimental results from two different build configurations of a heated multip...
This paper presents new experimental measurements, at conditions representative of an aero engine, o...
The flow and heat transfer inside HP compressor rotating cavities are buoyancy driven and are known ...
The radial clearance between the rotating blades and stationary casing of a gas-turbine compressor d...