Uncoupled, thermal-compressor, gas-turbine engine
First Claim
1. A constant-power, variable-speed gas turbine assembly wherein the assembly converts a portion of an energy of a high pressure gas into mechanical spinning shaft power, maintains near constant power output over a specified turbine rotational speed range, eliminates a need for a separate transmission and with means for magnetically transferring a torque of a turbine contained in a high pressure turbine housing to a region with a different pressure comprising:
- (a) a gas nozzle for receiving low-velocity, high-pressure gas and discharging high-velocity, low-pressure gas;
(b) a first turbine blade mounted on a shaft downstream of the nozzle for receiving gas from the nozzle and discharging the gas at a lower velocity thereby generating a first impulse which imparts torque to the shaft;
(c) a stator mounted in the gas turbine assembly downstream from the first turbine blade for changing the direction of gas flow;
(d) a second turbine blade mounted on the shaft for receiving the gas flow from the stator when the gas velocity is greater than a velocity of the second turbine blade and reducing the gas velocity thereof generating a second torque producing impulse and thereby maintaining near constant torque on the shaft;
(e) an internal discharge which receives and discharges gas from the stator when the velocity of the gas is less than the velocity of the second turbine blade;
(f) a high-pressure turbine housing enclosing the gas turbine assembly;
(g) a nonmagnetic and dielectric window in the high pressure turbine housing;
(h) means attached to spinning elements of the turbine for inducing a magnetic field positioned in close proximity to the nonmagnetic and dielectric window; and
(i) means for coupling a magnet field attached to a turbine spinning magnet to a shaft which is external to the high-pressure containment turbine structure.
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Accused Products
Abstract
The invention is for a continuous-combustion, closed-cycle, gas turbine engine with a regenerator and a displacer. It has embodiments that remove heater and cooler interior volumes during gas compression, which enable it to scale well to very large sizes. Low combustion temperatures insure very low emissions. The displacer levitated by an integral gas bearing and small clearance seal and given oscillatory translational motion by electromagnetic forces operates without surface wear. The turbine blades, subjected only to warm gases, are durable and inexpensive. Thus, this engine has a very long, continuous, maintenance-free service life. This gas turbine engine also operates without back work allowing high efficiency for both low and rated output. Pressurized encapsulation permits use of low-cost ceramics for high temperature components. The invention includes a unique monolithic ceramic heater, a compact high-capacity regenerator and a constant-power gas turbine.
49 Citations
3 Claims
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1. A constant-power, variable-speed gas turbine assembly wherein the assembly converts a portion of an energy of a high pressure gas into mechanical spinning shaft power, maintains near constant power output over a specified turbine rotational speed range, eliminates a need for a separate transmission and with means for magnetically transferring a torque of a turbine contained in a high pressure turbine housing to a region with a different pressure comprising:
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(a) a gas nozzle for receiving low-velocity, high-pressure gas and discharging high-velocity, low-pressure gas; (b) a first turbine blade mounted on a shaft downstream of the nozzle for receiving gas from the nozzle and discharging the gas at a lower velocity thereby generating a first impulse which imparts torque to the shaft; (c) a stator mounted in the gas turbine assembly downstream from the first turbine blade for changing the direction of gas flow; (d) a second turbine blade mounted on the shaft for receiving the gas flow from the stator when the gas velocity is greater than a velocity of the second turbine blade and reducing the gas velocity thereof generating a second torque producing impulse and thereby maintaining near constant torque on the shaft; (e) an internal discharge which receives and discharges gas from the stator when the velocity of the gas is less than the velocity of the second turbine blade; (f) a high-pressure turbine housing enclosing the gas turbine assembly; (g) a nonmagnetic and dielectric window in the high pressure turbine housing; (h) means attached to spinning elements of the turbine for inducing a magnetic field positioned in close proximity to the nonmagnetic and dielectric window; and (i) means for coupling a magnet field attached to a turbine spinning magnet to a shaft which is external to the high-pressure containment turbine structure. - View Dependent Claims (2, 3)
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Specification