ABSTRACT Experiments and numerical computations are performed to investigate the convective heat transfer characteristics of a gas turbine can combustor under cold flow conditions in a Reynolds number range between 50,000 and 500,000 with a characteristic swirl number of 0.7. It is observed that the flow field in the combustor is characterized by an expanding swirling flow which impinges on the liner wall close to the inlet of the combustor. The impinging shear layer is responsible for the peak location of heat transfer augmentation. It is observed that as Reynolds number increases from 50,000 to 500,000, the peak heat transfer augmentation ratio (compared to fully-developed pipe flow) reduces from 10.5 to 2.75. This is attributed to the re...
Combustion process is the complex phenomena involving the principles of fluid dynamics, thermodynami...
This paper describes non-reacting flow analysis of a gas turbine combustion system. The method is ba...
AbstractIt is known that the leading edge has the most critical heat transfer area of a gas turbine ...
The development of new gas turbines and aero engines is dedicated to reduce pollutant emissions in a...
RANS models in CFD are used to predict the liner wall heat transfer characteristics of a gas turbine...
Abstract: In any combustors and chemical reactors, to achieve high efficiency it is very important t...
This paper presents a cold flow simulation study of a small gas turbine combustor performed using la...
This paper presents a cold flow simulation study of a small gas turbine combustor performed using la...
As the research into the improvement of gas turbine performance progresses, the combustor- turbine i...
Strict limits for pollutant emissions by aircraft engines strive the development of new combustion c...
This paper describes a Large Eddy Simulation (LES) investigation into flow fields in a model gas tur...
The pressure gain across a rotating detonation combustor offers an efficiency rise and potential arc...
ABSTRACT Modern industrial combustor liners employ various cooling schemes such as, but not limited ...
This article presents a study of cooling performance of combustor liner of a gas turbine, using a fl...
The study focuses on heat transfer performance and flow structure associated with swirling jet on a ...
Combustion process is the complex phenomena involving the principles of fluid dynamics, thermodynami...
This paper describes non-reacting flow analysis of a gas turbine combustion system. The method is ba...
AbstractIt is known that the leading edge has the most critical heat transfer area of a gas turbine ...
The development of new gas turbines and aero engines is dedicated to reduce pollutant emissions in a...
RANS models in CFD are used to predict the liner wall heat transfer characteristics of a gas turbine...
Abstract: In any combustors and chemical reactors, to achieve high efficiency it is very important t...
This paper presents a cold flow simulation study of a small gas turbine combustor performed using la...
This paper presents a cold flow simulation study of a small gas turbine combustor performed using la...
As the research into the improvement of gas turbine performance progresses, the combustor- turbine i...
Strict limits for pollutant emissions by aircraft engines strive the development of new combustion c...
This paper describes a Large Eddy Simulation (LES) investigation into flow fields in a model gas tur...
The pressure gain across a rotating detonation combustor offers an efficiency rise and potential arc...
ABSTRACT Modern industrial combustor liners employ various cooling schemes such as, but not limited ...
This article presents a study of cooling performance of combustor liner of a gas turbine, using a fl...
The study focuses on heat transfer performance and flow structure associated with swirling jet on a ...
Combustion process is the complex phenomena involving the principles of fluid dynamics, thermodynami...
This paper describes non-reacting flow analysis of a gas turbine combustion system. The method is ba...
AbstractIt is known that the leading edge has the most critical heat transfer area of a gas turbine ...