Modular regenerative fuel cell system
First Claim
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1. A modular, regenerative fuel cell system that comprises a plurality of dedicated or reversible electrochemical cell stack modules, wherein each such module is devoid of major fluid systems.
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Abstract
A modular, regenerative fuel cell system that includes a plurality of dedicated or reversible electrochemical cell stack modules, where each such module is devoid of major fluid systems, is provided. The inventive system allows a user to specifically and effectively tailor the system to the demands of a particular application. If additional electrolysis capability and/or additional power are needed, only electrolysis cell stack modules and/or fuel cell stack modules are added to the system. The use of unnecessary or duplicative support equipment is avoided thereby rendering this system more cost effective and efficient.
78 Citations
22 Claims
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1. A modular, regenerative fuel cell system that comprises a plurality of dedicated or reversible electrochemical cell stack modules, wherein each such module is devoid of major fluid systems.
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2. A modular, regenerative fuel cell system that comprises one or more of each of the following functional modules:
- reversible fuel cell stack modules; and
fluid modules, and means for storing hydrogen gas.
- reversible fuel cell stack modules; and
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3. A modular, regenerative fuel cell system that comprises one or more of each of the following functional modules:
- electrolysis cell stack modules;
electrolysis cell fluid modules;
fuel cell stack modules; and
fuel cell fluid modules, and means for storing hydrogen gas.
- electrolysis cell stack modules;
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4. A modular, regenerative fuel cell system that comprises:
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(a) one or more reversible fuel cell stack modules, each in fluid communication with at least one fluid module, and in electrical communication with a power source, an external load or power grid, and control means, and each being adapted to convert water, water vapor, or an aqueous solution into at least a hydrogen gas, and to extract chemical energy from hydrogen gas and air or oxygen and convert the extracted chemical energy into electrical power;
(b) one or more fluid modules in fluid communication with (i) a source of water, water vapor, or aqueous solution, (ii) means for storing hydrogen gas, (iii) a source of air or oxygen, and (iv) the one or more reversible fuel cell stack modules, and in electrical communication with a power source and control means, for providing water, water vapor, or aqueous solution, hydrogen gas, and air or oxygen to the one or more reversible fuel cell stack modules, and for delivering hydrogen gas generated by the one or more reversible fuel cell stack modules to the means for storing hydrogen gas;
(c) a power source;
(d) control means; and
(e) means for storing hydrogen gas.
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5. A modular, regenerative fuel cell system that comprises:
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(a) one or more electrolysis cell fluid modules in fluid communication with (i) a source of water, water vapor, or aqueous solution, (ii) one or more electrolysis cell stack modules, and (iii) means for storing hydrogen gas, and in electrical communication with a power source and control means, for providing water, water vapor, or an aqueous solution to the one or more electrolysis cell stack modules and for delivering hydrogen gas generated by the one or more electrolysis cell stack modules to the means for storing hydrogen gas;
(b) one or more electrolysis cell stack modules, each in fluid communication with at least one electrolysis cell fluid module, and in electrical communication with the power source and the control means, each being adapted to convert water, water vapor, or an aqueous solution into at least a hydrogen gas;
(c) one or more fuel cell fluid modules in fluid communication with (i) the means for storing hydrogen gas, (ii) a source of air or oxygen, and (iii) the one or more fuel cell stack modules, and in electrical communication with the power source and the control means, for providing hydrogen gas and air or oxygen to the one or more fuel cell stack modules;
(d) one or more fuel cell stack modules, each in fluid communication with at least one fuel cell fluid module, and in electrical communication with the power source, an external load or power grid, and the control means, and each being adapted to extract chemical energy from the hydrogen gas and air or oxygen and converting the extracted chemical energy into electrical power;
(e) a power source;
(f) control means; and
(g) means for storing hydrogen gas. - View Dependent Claims (6, 7, 8, 9, 10)
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11. A method for generating power and storing energy using a modular, regenerative fuel cell system, which method comprises configuring the fuel cell system to include a plurality of dedicated or reversible electrochemical cell stack modules, wherein each such module is devoid of major fluid systems.
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12. A modular, regenerative fuel cell system, that comprises:
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(a) a hydrogen gas storage tank;
(b) reversible fuel cell stack modules, each in fluid communication with a fluid module, and in electrical communication with power means, an external load or power grid, and control means, each being adapted to convert water, water vapor, or an aqueous solution into at least a hydrogen gas, and to extract chemical energy from hydrogen gas and air or oxygen and convert the extracted chemical energy into electrical power;
(c) a fluid module in fluid communication with (i) a source of water, water vapor, or aqueous solution, (ii) means for storing hydrogen gas, (iii) a source of air or oxygen, and (iv) the reversible fuel cell stack modules, and in electrical communication with the power means and the control means, for providing water, water vapor, or aqueous solution, hydrogen gas, and air or oxygen to the reversible fuel cell stack modules;
(d) one or more batteries;
(e) power means for (i) receiving power from an energy source, (ii) optionally, charging the one or more batteries, (iii) providing power to the fluid module, and (iv) converting variable power from the reversible fuel cell stack modules to constant or relatively constant voltages and/or for inverting direct currents to alternating currents;
(f) monitoring means for monitoring information regarding all aspects of the modular regenerative fuel cell system and for communicating the information to the control means; and
(g) control means for receiving information from the monitoring means and for controlling all aspects of the modular regenerative fuel cell system, thereby assuring continuous, uninterrupted system operation.
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13. A modular, regenerative fuel cell system, that comprises:
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(a) electrolysis cell stack modules, each in fluid communication with an electrolysis cell fluid module, and in electrical communication with power means and control means, each being adapted to convert water or an aqueous solution into at least a hydrogen gas;
(b) a hydrogen gas storage tank;
(c) an electrolysis cell fluid module in fluid communication with (i) a source of water, water vapor, or aqueous solution, (ii) the electrolysis cell stack modules, and (iii) the hydrogen gas storage tank, and in electrical communication with the power means and the control means, for providing water, water vapor, or an aqueous solution to the electrolysis cell stack modules and for delivering hydrogen gas generated by the electrolysis cell stack modules to the hydrogen gas storage tank;
(d) fuel cell stack modules, each in fluid communication with a fuel cell fluid module, and in electrical communication with the power means, an external load or power grid, and the control means, each being adapted to extract chemical energy from hydrogen gas and air or oxygen and converting the extracted chemical energy into electrical power;
(e) a fuel cell fluid module in fluid communication with (i) the hydrogen gas storage tank, (ii) a source of air or oxygen, and (iii) the fuel cell stack modules, and in electrical communication with power means and the control means, for providing hydrogen gas and air or oxygen to the fuel cell stack modules;
(f) one or more batteries;
(g) power means for (i) receiving power from an energy source, (ii) optionally, charging the one or more batteries, (iii) providing power to the electrolysis cell fluid module, the electrolysis cell stack modules, and the fuel cell fluid module, and (iv) converting variable power from the fuel cell stack modules to constant or relatively constant voltages and/or for inverting direct currents to alternating currents;
(h) monitoring means for monitoring information regarding all aspects of the modular regenerative fuel cell system and for communicating the information to the control means; and
(i) control means for receiving information from the monitoring means and for controlling all aspects of the modular regenerative fuel cell system, thereby assuring continuous, uninterrupted system operation. - View Dependent Claims (14, 15, 16, 17, 18, 19, 20, 21, 22)
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Specification
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Current AssigneeWilliam F. Smith
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Original AssigneeWilliam F. Smith
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InventorsSmith, William F.
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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 Current429/418
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CPC Class CodesC25B 9/70 Assemblies comprising two o...H01M 16/006 of fuel cells with recharge...H01M 8/04201 Reactant storage and supply...H01M 8/0432 Temperature; Ambient temper...H01M 8/0438 Pressure; Ambient pressure;...H01M 8/0444 Concentration; Density H01M...H01M 8/04753 of fuel cell reactantsH01M 8/0494 of fuel cell stacksH01M 8/04947 of auxiliary devices, e.g. ...H01M 8/0656 by electrochemical means H0...H01M 8/186 by electrolytic decompositi...H01M 8/249 comprising two or more grou...Y02E 60/10 Energy storage using batteriesY02E 60/50 Fuel cells
