Add to ORKGSystem studies have shown the benefits of reducing blade tip clearances in modern turbine engines. Minimizing blade tip clearances throughout the engine will contribute materially to meeting NASA s Ultra-Efficient Engine Technology (UEET) turbine engine project goals. NASA GRC is examining two candidate approaches including rub-avoidance and regeneration which are explained in subsequent slides
The objectives of the research presented in this viewgraph presentation are to 1) Design a mechanica...
Gas turbine efficiency can be improved with tighter turbine tip clearances. An approach being develo...
The effects of high pressure turbine clearance changes on engine and module performance was evaluate...
The objective is to develop and demonstrate a fast-acting active clearance control system to improve...
As part of the NASA Propulsion 21 program, GE Aircraft Engines was contracted to develop an improved...
OBJECTIVE: Develop a fast acting HPT Active Clearance Control System to improve engine efficiency an...
The efficiency of aircraft gas turbine engines is sensitive to the distance between the tips of its ...
Improved blade tip sealing in the high pressure compressor and high pressure turbine can provide dra...
A 25.4-cm (10-in) tip diameter turbine was tested to determine the effect of rotor radial tip cleara...
Gas turbine compressor and turbine blade tip clearance (i.e., the radial distance between the blade ...
Tip clearance within the high pressure turbine of a gas turbine engine is a significant factor in en...
The goal of this research is to develop and demonstrate innovative adaptive seal technologies that c...
AbstractActive control of turbine blade tip clearance continues to be a concern in design and contro...
This presentation discusses active control of turbine tip clearance from a control systems perspecti...
Current NASA program goals for aircraft engines and vehicle performance include reducing direct oper...
The objectives of the research presented in this viewgraph presentation are to 1) Design a mechanica...
Gas turbine efficiency can be improved with tighter turbine tip clearances. An approach being develo...
The effects of high pressure turbine clearance changes on engine and module performance was evaluate...
The objective is to develop and demonstrate a fast-acting active clearance control system to improve...
As part of the NASA Propulsion 21 program, GE Aircraft Engines was contracted to develop an improved...
OBJECTIVE: Develop a fast acting HPT Active Clearance Control System to improve engine efficiency an...
The efficiency of aircraft gas turbine engines is sensitive to the distance between the tips of its ...
Improved blade tip sealing in the high pressure compressor and high pressure turbine can provide dra...
A 25.4-cm (10-in) tip diameter turbine was tested to determine the effect of rotor radial tip cleara...
Gas turbine compressor and turbine blade tip clearance (i.e., the radial distance between the blade ...
Tip clearance within the high pressure turbine of a gas turbine engine is a significant factor in en...
The goal of this research is to develop and demonstrate innovative adaptive seal technologies that c...
AbstractActive control of turbine blade tip clearance continues to be a concern in design and contro...
This presentation discusses active control of turbine tip clearance from a control systems perspecti...
Current NASA program goals for aircraft engines and vehicle performance include reducing direct oper...
The objectives of the research presented in this viewgraph presentation are to 1) Design a mechanica...
Gas turbine efficiency can be improved with tighter turbine tip clearances. An approach being develo...
The effects of high pressure turbine clearance changes on engine and module performance was evaluate...