Power cycles based upon cyclical hydriding and dehydriding of a material
First Claim
1. A method for providing a low temperature heat sink in a power cycle utilizing a working fluid comprising:
- combining hydrogen gas with a hydride-forming material under conditions of temperature and pressure such that a hydride saturated with, and in equilibrium with, hydrogen gas is formed;
heating the hydride at constant volume to a temperature above the equilibrium temperature of the hydride to activate the hydride and chemically compress the hydrogen gas in the hydride;
transferring additional heat to the hydride and concurrently releasing the hydrogen gas under pressure therefrom;
expanding the pressurized hydrogen gas released from the hydride bed to reduce the temperature thereof to a level substantially lower than ambient temperature; and
passing the expanded, cooled, hydrogen gas in heat exchange relation to said working fluid to provide said low temperature heat sink.
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Abstract
Improved power cycles for improving the production of power and refrigeration and for conserving thermal energy, utilizing as a common basic characteristic, a hydride-dehydride-hydrogen power cycle in which hydrogen is reversibly combined with a hydride-forming material at a relatively low temperature and pressure, the hydrided material is then heated at constant volume to chemically compress the hydrogen, and finally the material is dehydrided by further heating the material to release hydrogen gas at relatively high pressure and temperature. The pressurized high temperature hydrogen gas as thus developed is used in various ways for producing power and refrigeration, including functioning as a low temperature heat sink for certain auxiliary or ancillary power cycles, prior to recycling the hydrogen gas for reuse in the described hydride-dehydride-hydrogen cycle.
46 Citations
6 Claims
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1. A method for providing a low temperature heat sink in a power cycle utilizing a working fluid comprising:
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combining hydrogen gas with a hydride-forming material under conditions of temperature and pressure such that a hydride saturated with, and in equilibrium with, hydrogen gas is formed; heating the hydride at constant volume to a temperature above the equilibrium temperature of the hydride to activate the hydride and chemically compress the hydrogen gas in the hydride; transferring additional heat to the hydride and concurrently releasing the hydrogen gas under pressure therefrom; expanding the pressurized hydrogen gas released from the hydride bed to reduce the temperature thereof to a level substantially lower than ambient temperature; and passing the expanded, cooled, hydrogen gas in heat exchange relation to said working fluid to provide said low temperature heat sink.
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2. A Rankine power cycle system utilizing a working fluid to produce power comprising:
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heating said working fluid in a heating zone at substantially constant pressure to increase the enthalpy thereof and gassify the working fluid; expanding the gaseous heated working fluid through a power producing expansion device to produce power and cool the working fluid; heating a hydrogen-saturated hydride material at constant volume to a temperature above the equilibrium temperature of the hydride to activate the hydride and chemically compress the hydrogen gas combined therein; transferring additional heat to the hydride in its activated state, and concurrently releasing the hydrogen gas thereform at elevated pressure; expanding the released hydrogen gas from the hydride through a power producing expansion device to produce power and cool the hydrogen gas; passing the cool hydrogen gas from the power producing expansion device into heat exchange relation to the cooled working fluid to condense the working fluid; pumping the condensed working fluid to increase the pressure and temperature thereof; and recycling said working fluid in the condensed state to said heating zone. - View Dependent Claims (3)
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4. A method for improving the efficiency of a Rankine power cycle system utilizing a working fluid in a power cycle comprising:
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(a) combining hydrogen gas with a hydride-forming material under conditions of temperature and pressure such that a hydride saturated with, and in equilibrium with, hydrogen gas is formed; (b) heating the hydride at constant volume to a temperature above the equilibrium temperature of the hydride to activate the hydride and chemically compress the hydrogen gas in the hydride; (c) transferring additional heat to the hydride and concurrently releasing the hydrogen gas under pressure therefrom; (d) expanding the cooled portion of the released hydrogen gas from the hydride bed to reduce the temperature thereof to a level substantially lower than ambient temperature; and (e) passing the expanded, cooled hydrogen gas in heat exchange relation to said working fluid to provide a low temperature heat sink for said working fluid. - View Dependent Claims (5, 6)
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Specification