Ever-increasing thermal loads on gas turbine components require improved cooling schemes to extend component life. Engine designers often rely on multiple thermal pro-tection techniques, including internal cooling and external film cooling. A conjugate heat transfer model for the endwall of a seven-blade cascade was developed to examine the impact of both convective cooling and solid conduction through the endwall. Appropriate parameters were scaled to ensure engine-relevant temperatures were reported. External film cooling and internal jet impingement cooling were tested separately and together for their combined effects. Experiments with only film cooling showed high effectiveness around film-cooling holes due to convective cooling within...
We investigate the numerical prediction of film cooling effectiveness of a two-dimensional gas turbi...
A numerical model is developed in the present work for analysing cooling performance of combined imp...
The leading edge region of gas turbine blades and vanes experiences high thermal and mechanical str...
Gas turbine engines are widely used in many industrial applications including aircraft propulsion, l...
Gas turbine engines are prevalent in the today’s aviation and power generation industries. The major...
Modern gas turbines engines are designed with higher turbine inlet temperatures to increase the over...
Film cooling effectiveness and its distribution characteristics on the gas turbine blade surface wer...
In modern gas turbine engines, many sophisticated cooling schemes are used to maintain the turbine b...
Modern research on gas turbine cooling continues to focus on the optimization of different cooling d...
Gas turbines are widely used for power generation, producing megawatts of usable energy, but consume...
The durability of gas turbine engines is strongly dependent on the component temperatures. For the c...
Ongoing research strives to optimize gas turbine blade film cooling so that it achieves maximum perf...
textIn the United States, natural gas turbine generators account for approximately 7% of the total p...
Turbine blade components in an engine are typically designed with gaps between parts due to manufact...
The service life of gas turbine engine turbine blades depends on the blade’s material, service tempe...
We investigate the numerical prediction of film cooling effectiveness of a two-dimensional gas turbi...
A numerical model is developed in the present work for analysing cooling performance of combined imp...
The leading edge region of gas turbine blades and vanes experiences high thermal and mechanical str...
Gas turbine engines are widely used in many industrial applications including aircraft propulsion, l...
Gas turbine engines are prevalent in the today’s aviation and power generation industries. The major...
Modern gas turbines engines are designed with higher turbine inlet temperatures to increase the over...
Film cooling effectiveness and its distribution characteristics on the gas turbine blade surface wer...
In modern gas turbine engines, many sophisticated cooling schemes are used to maintain the turbine b...
Modern research on gas turbine cooling continues to focus on the optimization of different cooling d...
Gas turbines are widely used for power generation, producing megawatts of usable energy, but consume...
The durability of gas turbine engines is strongly dependent on the component temperatures. For the c...
Ongoing research strives to optimize gas turbine blade film cooling so that it achieves maximum perf...
textIn the United States, natural gas turbine generators account for approximately 7% of the total p...
Turbine blade components in an engine are typically designed with gaps between parts due to manufact...
The service life of gas turbine engine turbine blades depends on the blade’s material, service tempe...
We investigate the numerical prediction of film cooling effectiveness of a two-dimensional gas turbi...
A numerical model is developed in the present work for analysing cooling performance of combined imp...
The leading edge region of gas turbine blades and vanes experiences high thermal and mechanical str...