Adiabatic Salt Energy Storage
5 Assignments
0 Petitions
Accused Products
Abstract
Efficient energy storage is provided by using a working fluid flowing in a closed cycle including a ganged compressor and turbine, and capable of efficient heat exchange with heat storage fluids on a hot side of the system and on a cold side of the system. This system can operate as a heat engine by transferring heat from the hot side to the cold side to mechanically drive the turbine. The system can also operate as a refrigerator by mechanically driving the compressor to transfer heat from the cold side to the hot side. Heat exchange between the working fluid of the system and the heat storage fluids occurs in counter-flow heat exchangers. In a preferred approach, molten salt is the hot side heat storage fluid and water is the cold side heat storage fluid.
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Citations
28 Claims
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1-14. -14. (canceled)
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15. A method for storing and releasing energy, the method comprising:
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(a) increasing a pressure of a working fluid operating in a closed cycle from a first pressure to a second pressure with the aid of a compressor, thereby increasing a temperature of the working fluid; (b) using a first heat storage unit downstream of the compressor and in thermal communication with the working fluid for (i) in a storing mode, removing heat from the working fluid and decreasing the temperature of the working fluid, which decrease in temperature is at substantially the second pressure, or (ii) in a releasing mode, supplying heat to the working fluid and increasing the temperature of the working fluid, which increase in temperature is at substantially the second pressure; (c) decreasing the pressure of the working fluid from the second pressure to the first pressure with the aid of a turbine, thereby decreasing the temperature of the working fluid; (d) using a second heat storage unit downstream of the turbine and in thermal communication with the working fluid for (i) in the storing mode, supplying heat to the working fluid and increasing the temperature of the working fluid, which decrease in temperature is at substantially the first pressure, or (ii) in the releasing mode, removing heat from the working fluid and decreasing the temperature of the working fluid, which decrease in temperature is at substantially the first pressure, wherein the working fluid flows in a same direction in the closed cycle when in the storing mode as when in the releasing mode, and wherein the working fluid flows through the compressor, the first heat storage unit, the turbine, and the second heat storage unit in both the storing mode and the releasing mode. - View Dependent Claims (16, 17, 18, 19, 20, 21, 22, 23, 24)
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- 25. A system for storing and releasing electrical energy, comprising an electrical energy input and an electrical energy output, wherein the system is capable of storing and releasing electrical energy using two heat exchangers, each heat exchanger comprising a thermal storage fluid that directs thermal energy into or extracts thermal energy from a circulatory fluid flow path, wherein the circulatory fluid flow path comprises a working fluid that flows in a same direction in the circulatory fluid flow path when storing electrical energy as when releasing electrical energy, wherein the working fluid flows through a compressor, a first heat exchanger, a turbine, and a second heat exchanger in both a storing mode and a releasing mode, and wherein the system comprises a controller that is programmed to regulate (i) a temperature difference between at least two thermally coupled fluid elements of the heat exchangers, and/or (ii) one or more fluid properties of the fluid elements of the heat exchangers.
Specification
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Current AssigneeMalta, Inc.
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Original AssigneeX Development LLC (Alphabet Inc.)
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InventorsLaughlin, Robert B.
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Granted Patent
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Time in Patent OfficeDays
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Field of Search
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US Class Current
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CPC Class CodesF01D 1/02 with stationary working-flu...F01K 25/00 Plants or engines character...F01K 25/10 the vapours being cold, e.g...F01K 3/12 having two or more accumula...F01K 5/00 Plants characterised by use...F01L 1/02 Valve drive transmitting-ge...F02C 1/04 the working fluid being hea...F02C 6/14 Gas-turbine plants having m...F25B 11/02 as expanders F25B9/06 takes...F25B 9/004 the refrigerant being airF25B 9/06 using expanders F25B9/10 ta...Y02E 10/46 Conversion of thermal power...Y02E 60/14 Thermal energy storage
