IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
|
출원번호 |
US-0091465
(2005-03-28)
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발명자
/ 주소 |
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출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
7 인용 특허 :
3 |
초록
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A tankless water heater powered by a fuel cell. In preferred embodiments, a fuel cell powered water heater in which the fuel cell is electrically connected to the electrical system of the building in which the water heater is installed as well as to the public electrical power grid for providing eme
A tankless water heater powered by a fuel cell. In preferred embodiments, a fuel cell powered water heater in which the fuel cell is electrically connected to the electrical system of the building in which the water heater is installed as well as to the public electrical power grid for providing emergency power to the building and/or power to the public electrical power grid, respectively. In alternative preferred embodiments, a tankless, solid oxide fuel cell powered water heater which utilizes heat from exhaust gases to heat input oxidant gases and, optionally, can be cooled by routing excess heat to the exterior of the building on hot days.
대표청구항
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I claim: 1. A tankless water heater comprising: a cold water inlet for receipt of water to be selectively heated by said water heater; a hot water outlet in fluid communication with said cold water inlet for discharge of hot water heated by said water heater; a water passageway connecting said col
I claim: 1. A tankless water heater comprising: a cold water inlet for receipt of water to be selectively heated by said water heater; a hot water outlet in fluid communication with said cold water inlet for discharge of hot water heated by said water heater; a water passageway connecting said cold water inlet to said hot water outlet; a fuel cell; a fuel inlet for receipt of a fuel; an oxidant inlet for receipt of an oxidant gas; an exhaust outlet for exhaust of effluent gases a heating mechanism located in temperature conductive communication with said water passageway, said heating mechanism being electrically connected to said fuel cell such that said fuel cell is capable of providing electrical current to said heating mechanism for selectively heating water flowed into said cold water inlet for discharge by said hot water outlet; wherein said oxidant inlet and said exhaust outlet are so configured and located, one with respect to the other, such that, during water heater operation, effluent gases which exit said water heater are capable of heating oxidant gases entering said water heater. 2. A tankless water heater according to claim 1 further including a first electrical supply connection connecting said fuel cell to a private electrical system; and a second electrical supply connection connecting said fuel cell to a public electrical grid. 3. A tankless water heater according to claim 2 further including a power storage device electrically connected to said fuel cell, said power storage device being capable of storing power and thereafter supplying said stored power selectively for emergency power needs. 4. A tankless water heater according to claim 2 wherein said heating mechanism comprises a heating element which heats water via electrical resistance as electrical current is conducted through said heating element. 5. A tankless water heater according to claim 4 wherein said fuel cell is capable of selectively providing power to a private electrical system and is capable of selectively providing power to a public electrical grid. 6. A tankless water heater according to claim 5 further including a water heater control module, said water heater control module being capable of detecting select operational conditions and selectively routing electrical output of said fuel cell according to instructions corresponding to detected operational conditions. 7. A tankless water heater according to claim 6 wherein said control module is capable of detecting at least one operational condition selected from the group consisting of: water heating needs, power outages, public electrical grid power needs, private electrical grid power needs, and power storage device capacity levels. 8. A tankless water heater according to claim 5 further including an inverter electrically connected to said fuel cell for converting direct current to alternating current and for directing said alternating current to an electrical pathway for providing said alternating current to an end use selected from the group consisting of: a public electric grid, a private electric grid, and a power storage device. 9. A tankless water heater according to claim 3 further including a flue, said flue comprising three passageways including: a first passageway for exhaustion of fuel exhaust; a second passageway for exhaustion of oxidant exhaust; and a third passageway for induction of oxidant gas to said fuel cell. 10. A tankless water heater according to claim 9 wherein said flue comprises first, second, and third chambers, said first chamber encompassing said first passageway, said second chamber encompassing said second passageway, and said third chamber encompassing said third passageway; and wherein said first, second, and third chambers are in temperature conductive contact with one another thereby to permit heat exchange between gases located in said chambers. 11. A tankless water heater according to claim 10 wherein said first, second, and third passageways are oriented substantially parallel one to the other thereby to permit heat exchange between gases flowing through said passageways. 12. A tankless water heater according to claim 11 further including a blower device located in fluid communication with at least one chamber of said flue thereby to promote ingress or egress of gas to or from said water heater. 13. A tankless water heater according to claim 12 wherein said blower device is in fluid communication with at least one chamber of said flue selected from the group consisting of: said first chamber and said second chamber; said blower device being in fluid communication with said at least one chamber thereby to assist in exhaustion of exhaust gas from said water heater. 14. A tankless water heater according to claim 13 wherein said blower device is in fluid communication with at least said third chamber of said flue; said blower device being in fluid communication with said at least said third chamber thereby to create a positive flow of oxidant gas into said water heater selectively during operation. 15. A tankless water heater according to claim 14 further including a fuel source connected to said fuel inlet, said fuel source selected from the group consisting of: natural gas, propane gas, and hydrogen gas. 16. A tankless water heater according to claim 15, wherein said fuel cell is a solid oxide fuel cell. 17. A tankless water heater according to claim 16, wherein the fuel cell acts as an electrolyzer for separating hydrogen from water and separating carbon monoxide from carbon dioxide. 18. A tankless water heater according to claim 17 further including a control module, said control module being capable of detecting a request for hot water, and being capable of starting and stopping operation of said water heater to begin or cease hot water flow as requested. 19. A tankless water heater according to claim 18 further including a cooling system for cooling at least one component of said water heater during operation, said cooling system being selected from the group consisting of: an air cooling apparatus; and a liquid cooling apparatus. 20. A tankless water heater according to claim 16 wherein said fuel inlet includes a standardized connector for connecting to a standardized household fuel supply connector; and wherein said cold water inlet and said hot water outlet include standardized plumbing connectors for connecting to standardized household plumbing lines. 21. A tankless water heater according to claim 1 wherein said fuel cell is bi-functional and, as such, is capable of being operated as an electrolyzer for producing fuel. 22. A tankless water heater according to claim 21 wherein when said fuel cell is operated as an electrolyzer, direct current and water as an electrolyzer reactant are fed to an anode side of said fuel cell, and wherein thereafter said water is electrolyzed to produce hydrogen fuel and oxygen is driven to the cathode side of the fuel cell; and wherein said hydrogen fuel is directed to a storage vessel. 23. A tankless water heater according to claim 7 wherein said control module is communicably connected to a remotely located monitoring system for monitoring operational conditions of said water heater. 24. A tankless water heater according to claim 23 wherein said remotely located monitoring system is internet based and is capable of automatically, periodically polling real time operational data from said control module and is capable of reporting said operational data to a data base.
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