Fluid circulation in energy storage and recovery systems
First Claim
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1. A compressed gas energy storage and recovery system comprising:
- a cylinder assembly comprising (i) a first compartment, (ii) a second compartment, (iii) a piston, slidably disposed within the cylinder assembly, separating the compartments, and (iv) a piston rod coupled to the piston and extending outside the first compartment, the piston rod comprising a cavity (a) in fluid communication with the second compartment and (b) not fluidly connected to the first compartment;
a compressed-gas storage reservoir;
valving, selectively fluidly connecting the compressed-gas storage reservoir to the cylinder assembly, for admitting compressed gas into the second compartment for expansion or exhausting compressed gas from the second compartment after compression;
a vent to atmosphere;
valving, selectively fluidly connecting the vent to the cylinder assembly, for admitting gas into the second compartment for compression or exhausting expanded gas from the second compartment after expansion;
a mechanism for introducing heat-exchange fluid within the second compartment; and
a tube, configured for non-flexure and disposed at least partially within the cavity and in fluid communication with the mechanism, for facilitating recirculation of heat-exchange fluid from the second compartment to the cavity, from the cavity to the tube, from the tube to the mechanism, and from the mechanism to the second compartment.
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Abstract
In various embodiments, heat is exchanged with a gas being compressed or expanded within an energy storage and recovery system without the use of flexible hoses.
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Citations
15 Claims
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1. A compressed gas energy storage and recovery system comprising:
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a cylinder assembly comprising (i) a first compartment, (ii) a second compartment, (iii) a piston, slidably disposed within the cylinder assembly, separating the compartments, and (iv) a piston rod coupled to the piston and extending outside the first compartment, the piston rod comprising a cavity (a) in fluid communication with the second compartment and (b) not fluidly connected to the first compartment; a compressed-gas storage reservoir; valving, selectively fluidly connecting the compressed-gas storage reservoir to the cylinder assembly, for admitting compressed gas into the second compartment for expansion or exhausting compressed gas from the second compartment after compression; a vent to atmosphere; valving, selectively fluidly connecting the vent to the cylinder assembly, for admitting gas into the second compartment for compression or exhausting expanded gas from the second compartment after expansion; a mechanism for introducing heat-exchange fluid within the second compartment; and a tube, configured for non-flexure and disposed at least partially within the cavity and in fluid communication with the mechanism, for facilitating recirculation of heat-exchange fluid from the second compartment to the cavity, from the cavity to the tube, from the tube to the mechanism, and from the mechanism to the second compartment. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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14. A method for energy storage and recovery utilizing a cylinder assembly comprising (i) a first compartment, (ii) a second compartment, (iii) a piston, slidably disposed within the cylinder assembly, separating the compartments, and (iv) a piston rod coupled to the piston and extending outside the first compartment, the piston rod comprising a cavity (a) in fluid communication with the second compartment and (b) not fluidly connected to the first compartment, the method comprising:
at least one of; (a) admitting compressed gas from a source of compressed gas into the second compartment, expanding the compressed gas within the second compartment, introducing heat-exchange fluid into the second compartment during expansion of the compressed gas, recirculating heat-exchange fluid (i) from the second compartment to the cavity, (ii) from the cavity to a tube, the tube being configured for non-flexure and disposed at least partially within the cavity, (iii) from the tube to the exterior of the second compartment, and (iv) into the second compartment, and venting expanded gas to ambient atmosphere;
or(b) admitting gas from a vent to atmosphere into the second compartment, compressing the gas within the second compartment, introducing heat-exchange fluid into the second compartment during compression of the gas, recirculating heat-exchange fluid (i) from the second compartment to the cavity, (ii) from the cavity to a tube, the tube being configured for non-flexure and disposed at least partially within the cavity, (iii) from the tube to the exterior of the second compartment, and (iv) into the second compartment, and storing compressed gas within a compressed-gas storage reservoir. - View Dependent Claims (15)
Specification