The clearance of compressor blade tips during aero-engine accelerations is an important design issue for next-generation engine architectures. The transient clearance depends on the radial expansion of the compressor discs, which is directly coupled to conjugate heat transfer in co-rotating discs governed by unsteady and unstable buoyancy-induced flow. This paper discusses an experimental and modelling study using the Bath Compressor Cavity Rig, which simulates a generic axial compressor at fluiddynamically scaled conditions. The rig was specifically designed to generate heat transfer of practical interest to the engine designer and validate computational codes. This work presents the first study of the fundamental fluid dynamic and heat tr...
In the design of a gas turbine engine it is important to have a good prediction ofthe temperature di...
In this paper large-eddy simulation is used to study buoyancy-induced flow in a rotating cavity with...
The compressor disks of an aircraft engine which operate at very high rotational speeds are exposed ...
The flow inside cavities between corotating compressor disks of aero-engines is driven by buoyancy, ...
The change in compressor blade-tip clearance across the flight cycle depends on the expansion of the...
Buoyancy-induced flow occurs inside the rotating compressor cavities of gas turbines. These cavities...
The flow and heat transfer inside HP compressor rotating cavities are buoyancy driven and are known ...
Accurate prediction of heat transfer in compressor cavities is crucial to the design of efficient an...
The buoyancy-induced flow and heat transfer inside the compressor rotors of gas-turbine engines affe...
Increasing pressures in gas-turbine compressors, particularly in aeroengines where the pressure rati...
This paper presents Laser-Doppler Anemometry (LDA) measurements obtained from the Sussex Multiple Ca...
This paper presents new experimental measurements, at conditions representative of an aero engine, o...
The radial clearance between the rotating blades and stationary casing of a gas-turbine compressor d...
The prediction of compressor drum cavity heat transfer is an important factor in the overall design ...
© 2021 Deepak SainiRotating flows and induced convection by centrifugal forces are prevalent in natu...
In the design of a gas turbine engine it is important to have a good prediction ofthe temperature di...
In this paper large-eddy simulation is used to study buoyancy-induced flow in a rotating cavity with...
The compressor disks of an aircraft engine which operate at very high rotational speeds are exposed ...
The flow inside cavities between corotating compressor disks of aero-engines is driven by buoyancy, ...
The change in compressor blade-tip clearance across the flight cycle depends on the expansion of the...
Buoyancy-induced flow occurs inside the rotating compressor cavities of gas turbines. These cavities...
The flow and heat transfer inside HP compressor rotating cavities are buoyancy driven and are known ...
Accurate prediction of heat transfer in compressor cavities is crucial to the design of efficient an...
The buoyancy-induced flow and heat transfer inside the compressor rotors of gas-turbine engines affe...
Increasing pressures in gas-turbine compressors, particularly in aeroengines where the pressure rati...
This paper presents Laser-Doppler Anemometry (LDA) measurements obtained from the Sussex Multiple Ca...
This paper presents new experimental measurements, at conditions representative of an aero engine, o...
The radial clearance between the rotating blades and stationary casing of a gas-turbine compressor d...
The prediction of compressor drum cavity heat transfer is an important factor in the overall design ...
© 2021 Deepak SainiRotating flows and induced convection by centrifugal forces are prevalent in natu...
In the design of a gas turbine engine it is important to have a good prediction ofthe temperature di...
In this paper large-eddy simulation is used to study buoyancy-induced flow in a rotating cavity with...
The compressor disks of an aircraft engine which operate at very high rotational speeds are exposed ...