Process for generating combustible gas from organic feedstock and reactors therefor
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F23G-005/20
F23G-005/027
F23B-030/04
F27B-007/00
출원번호
US-0405438
(2012-02-27)
등록번호
US-9885478
(2018-02-06)
발명자
/ 주소
May, David F.
Burke, Jr., John
May, II, David F.
Aiken, Paul E.
출원인 / 주소
Recycling Solutions Technology, LLC
대리인 / 주소
Honigman Miller Schwartz and Cohn LLP
인용정보
피인용 횟수 :
0인용 특허 :
23
초록▼
The present invention provides a method of generating combustible gas from organic feedstock, such as the organic components of municipal waste, and a reactor therefor. The feedstock is processed through a plurality of reaction zones within the reactor, wherein the environment of each of the zones f
The present invention provides a method of generating combustible gas from organic feedstock, such as the organic components of municipal waste, and a reactor therefor. The feedstock is processed through a plurality of reaction zones within the reactor, wherein the environment of each of the zones facilitates physical or chemical reactions that work to transform the organic feedstock into one or more combustible gases that can be burned for energy production.
대표청구항▼
1. A reactor for generating combustible gas from organic waste comprising: a reactor chamber comprising: a housing comprising: a proximal end and a distal end, wherein at least a portion of an interior surface of the housing is substantially circular when viewed in cross-section, anda central axis e
1. A reactor for generating combustible gas from organic waste comprising: a reactor chamber comprising: a housing comprising: a proximal end and a distal end, wherein at least a portion of an interior surface of the housing is substantially circular when viewed in cross-section, anda central axis extending from the proximal end to the distal end;a refractory lining disposed over at least a portion of the interior surface of the housing, the refractory lining comprising lifters extending outward from the interior surface of the housing in a spiral arrangement with respect to the center axis, the lifters comprising: a first group of lifters having a first length and situated on a distal portion of the interior surface of the housing;a second group of lifters having a second length and situated on the interior surface of the housing distally of the first group of lifters, the second length less than the first length; anda third group of lifters having a third length and situated on the interior surface of the housing distally of the second plurality of lifters, the third length less than the second length;a gas inlet that fluidly communicates with a portion of the housing distal from the proximal end of the housing;a gas outlet that fluidly communicates with a portion of the housing proximal from the distal end of the housing and the gas inlet;a pump that fluidly communicates with the gas outlet;a valve that fluidly communicates with the gas inlet;a rotator that rotates the housing around the central axis;a combustion chamber comprising a furnace that fluidly communicates with the pump and the gas outlet, wherein the furnace includes an exhaust port, wherein the pump is arranged downstream of the gas outlet and upstream of the furnace; anda boiler arranged within the furnace, the boiler generating steam when water disposed inside the boiler is heated from combustion of syn gas in the combustion chamber. 2. The reactor of claim 1, wherein the housing is rotatable around the central axis. 3. The reactor of claim 1, further comprising an elevator that can reversibly elevate the proximal end of the housing so that the central axis of the housing can form angles, θ and θ′ with a horizontal axis. 4. The reactor of claim 3, wherein the smaller of angles θ and θ′ is 80° or less. 5. The reactor of claim 1, wherein the housing comprises a thermally conductive material. 6. The reactor of claim 1, wherein the refractory lining comprises a thermally conductive material. 7. The reactor of claim 6, wherein the refractory lining comprises ceramic or a fire brick material. 8. The reactor of claim 1, further comprising a turbine that fluidly communicates with the boiler so that steam from the boiler rotates the turbine to generate electricity. 9. The reactor of claim 1, wherein the housing comprises a length of about 300 feet or less. 10. The reactor of claim 9, wherein the inner surface of the housing comprises a diameter of about 20 feet or less. 11. The reactor of claim 1, wherein the exhaust port of the combustion chamber comprises a filter. 12. The reactor of claim 11, wherein the filter includes one or more of an activated charcoal filter, and scrubber. 13. A reactor for generating combustible gas from organic feedstock comprising: a rotatable reactor chamber having proximal and distal ends and defining a center axis, the reactor chamber comprising: a dehydration zone disposed proximate the distal end of the reaction chamber, the dehydration zone comprising a gas outlet, a feedstock inlet, and a first refractory lining disposed over at least a portion of an interior surface of the dehydration zone, the first refractory lining comprising a first group of lifters extending from the interior surface of the dehydration zone and having a first length;a gasification zone disposed distally of the dehydration zone, the gasification zone comprising a second refractory lining disposed over at least a portion of an interior surface of the gasification zone, the second refractory lining comprising a second group of lifters having a second length less than the first length;an oxidation zone disposed distally of the gasification zone, the oxidation zone comprising a third refractory lining disposed over a portion of an interior surface of the oxidation zone, the third refractory lining comprising a third group of lifters having a third length less than the second length; anda cooling zone disposed distally of the oxidation zone, the cooling zone comprising a gas inlet that fluidly communicates with a valve;wherein the lifters are arranged in a spiral arrangement with respect to the center axis;a pump that fluidly communicates with the gas outlet, wherein the dehydration zone fluidly communicates with the gasification zone, the gasification zone fluidly communicates with the oxidation zone, and the oxidation zone fluidly communicates with the cooling zone, wherein the rotatable reactor chamber is substantially airtight when the gas outlet, the feedstock inlet, and gas inlet are closed, wherein the pump and the valve cooperatively operate to regulate the pressure or gas flow inside the reactor chamber;a combustion chamber comprising a furnace that fluidly communicates with the pump and the gas outlet, wherein the furnace includes an exhaust port, wherein the pump is arranged downstream of the gas outlet and upstream of the furnace; anda boiler arranged within the furnace, the boiler generating steam when water disposed inside the boiler is heated from combustion of syn gas in the combustion chamber. 14. The reactor of claim 13, wherein the cooling zone comprises a fourth refractory lining disposed over at least a portion of interior surface of the cooling zone. 15. The reactor of claim 14, further comprising a first airlock that fluidly communicates with the feedstock inlet on the dehydration zone. 16. The reactor of claim 15, further comprising a second airlock that fluidly communicates with the waste outlet of the cooling zone. 17. The reactor of claim 14, wherein the cooling zone further comprises a waste outlet. 18. The reactor of claim 14, wherein the pump operates to generate negative pressure inside the reactor chamber when the valve is at least partially closed. 19. The reactor of claim 18, further comprising a furnace that fluidly communicates with the pump. 20. The reactor of claim 13, further comprising a turbine that fluidly communicates with the boiler so that steam from the boiler rotates the turbine to generate electricity.
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