Add to ORKGAn experimental evaluation of a NASA-designed self-acting face seal for use in advanced gas turbine main shaft positions was conducted. The seal incorporated Rayleigh step pads (self-acting geometry) for lift augmentation. Satisfactory performance of the gas film seal was demonstrated in a 500-hour endurance test at speeds to 183 m/s (600 ft/sec, 54,000 rpm) and air pressure differential of 137 newtons per square centimeter (198.7 psi). Carbon wear was minor. Tests were also conducted with seal seat runout greater than that expected in engine operation and in a severe sand and dust environment. Seal operation was satisfactory in both these detrimental modes of operation
Seal operating temperatures, leakage (pressurizing gas flow), torque, and wear of a conventional cir...
Parametric design study of self-acting pad geometries for shaft seals in turbocompressor
An experimental evaluation and a 100-hour endurance test were performed on a spiral groove geometry,...
An experimental evaluation was conducted with NASA-designed self-acting face and circumferential sea...
The feasibility and the noncontact operation of the self-acting seal was demonstrated over a range o...
Self-acting seals are described in detail. The mathematical models for obtaining a seal force balanc...
An experimental evaluation of mainshaft seals for small gas turbine engines was conducted with shaft...
A method for predicting the operating film thickness of self-acting seals is described. The analysis...
Sealing dam analysis for design of shaft face seal with self-acting lift augmentation for advanced g...
A gas-film face seal design incorporating shrouded Rayleigh step lift pads at the primary sealing fa...
Dynamic tests were performed on self acting (hydrodynamic) carbon face rotary shaft seals to assess ...
Design of shaft face seal with self-acting lift augmentation for gas turbine engine
Analysis and tests of self-acting mainshaft seals to provide gas film lubrication for advanced gas t...
Design adds gas thrust bearing to face of conventional face seal. Bearing lifts seal's carbon face o...
Shaft face seal with self acting lift augmentation for advanced gas turbine engine
Seal operating temperatures, leakage (pressurizing gas flow), torque, and wear of a conventional cir...
Parametric design study of self-acting pad geometries for shaft seals in turbocompressor
An experimental evaluation and a 100-hour endurance test were performed on a spiral groove geometry,...
An experimental evaluation was conducted with NASA-designed self-acting face and circumferential sea...
The feasibility and the noncontact operation of the self-acting seal was demonstrated over a range o...
Self-acting seals are described in detail. The mathematical models for obtaining a seal force balanc...
An experimental evaluation of mainshaft seals for small gas turbine engines was conducted with shaft...
A method for predicting the operating film thickness of self-acting seals is described. The analysis...
Sealing dam analysis for design of shaft face seal with self-acting lift augmentation for advanced g...
A gas-film face seal design incorporating shrouded Rayleigh step lift pads at the primary sealing fa...
Dynamic tests were performed on self acting (hydrodynamic) carbon face rotary shaft seals to assess ...
Design of shaft face seal with self-acting lift augmentation for gas turbine engine
Analysis and tests of self-acting mainshaft seals to provide gas film lubrication for advanced gas t...
Design adds gas thrust bearing to face of conventional face seal. Bearing lifts seal's carbon face o...
Shaft face seal with self acting lift augmentation for advanced gas turbine engine
Seal operating temperatures, leakage (pressurizing gas flow), torque, and wear of a conventional cir...
Parametric design study of self-acting pad geometries for shaft seals in turbocompressor
An experimental evaluation and a 100-hour endurance test were performed on a spiral groove geometry,...