This study deals with the leakage flow over a shrouded turbine stage, its interaction with the main passage flow, and the associated losses. The study addressed these topics by providing an analytical correlation loss model and detailed CFD simulations. An analytical model of leakage flow loss over a shrouded turbine stage has been developed. The analytical model uses directly measurable flow quantities to predict the effect of some of the over-shroud design parameters on stage performance. The model displays good predictive ability for the mass leakage fraction and the mixing losses. The model resolves the negative incidence angle induced by mixing the leakage flow with the main stream and predicts the increment in the total mixing loss co...
PhDThis investigation studies the leakage flows over the high pressure turbine blade tip at high spe...
In high pressure gas-turbine stages, a source of significant losses is the leakage flow in the gap b...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2015.Th...
This study deals with the leakage flow over a shrouded turbine stage, its interaction with the main ...
Mechanisms of formation of the tir leakage over shrouded and unshrouded rotor blades are described i...
An experimental and numerical investigation into the tip leakage flow of a turbine rotor is carried ...
In today's modern gas turbine engines, the region between the rotor and the stationary shroud has th...
The design and optimization of turbines demands the use of fast low-fidelity tools. To obtain adequa...
The over tip leakage (OTL) flow that exists between the stationary casing and the rotor tip of a sh...
In turbomachinery, an influence of a tip-leakage flow on overall blade loss is crucial and its reduc...
Most of the current understanding of tip leakage flows has been derived from detailed cascade experi...
Accurate loss models are crucial for reliable turbine performance predictions using low-fidelity too...
This paper presents preliminary findings on a possible approach to reducing tip leakage losses. In t...
Dawn Aerospace is developing a small launch vehicle in the form of a spaceplane, which is powered by...
AbstractIn an effort to reduce the blade tip clearance leakage in turbine designs, this article aims...
PhDThis investigation studies the leakage flows over the high pressure turbine blade tip at high spe...
In high pressure gas-turbine stages, a source of significant losses is the leakage flow in the gap b...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2015.Th...
This study deals with the leakage flow over a shrouded turbine stage, its interaction with the main ...
Mechanisms of formation of the tir leakage over shrouded and unshrouded rotor blades are described i...
An experimental and numerical investigation into the tip leakage flow of a turbine rotor is carried ...
In today's modern gas turbine engines, the region between the rotor and the stationary shroud has th...
The design and optimization of turbines demands the use of fast low-fidelity tools. To obtain adequa...
The over tip leakage (OTL) flow that exists between the stationary casing and the rotor tip of a sh...
In turbomachinery, an influence of a tip-leakage flow on overall blade loss is crucial and its reduc...
Most of the current understanding of tip leakage flows has been derived from detailed cascade experi...
Accurate loss models are crucial for reliable turbine performance predictions using low-fidelity too...
This paper presents preliminary findings on a possible approach to reducing tip leakage losses. In t...
Dawn Aerospace is developing a small launch vehicle in the form of a spaceplane, which is powered by...
AbstractIn an effort to reduce the blade tip clearance leakage in turbine designs, this article aims...
PhDThis investigation studies the leakage flows over the high pressure turbine blade tip at high spe...
In high pressure gas-turbine stages, a source of significant losses is the leakage flow in the gap b...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2015.Th...