Heating device including catalytic burning of liquid fuel
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F23D-011/44
F23C-013/02
출원번호
US-0522014
(2008-01-07)
등록번호
US-9494316
(2016-11-15)
우선권정보
SE-0700031 (2007-01-05)
국제출원번호
PCT/SE2008/050012
(2008-01-07)
§371/§102 date
20100217
(20100217)
국제공개번호
WO2008/082361
(2008-07-10)
발명자
/ 주소
Vestin, Anders
출원인 / 주소
ZEmission AB
대리인 / 주소
Merchant & Gould P.C.
인용정보
피인용 횟수 :
0인용 특허 :
16
초록▼
A heating device (100) for combustion of liquid fuels comprises at least one catalytic element (140) for catalytically burning a mixture of fuel and air, a fuel supply means (133) being disposed on an upstream side of said first catalytic element (140) and an air supply means (132) being disposed on
A heating device (100) for combustion of liquid fuels comprises at least one catalytic element (140) for catalytically burning a mixture of fuel and air, a fuel supply means (133) being disposed on an upstream side of said first catalytic element (140) and an air supply means (132) being disposed on an upstream side of said at least one catalytic element (140). A fuel-evaporating device (130) has a substantially axisymmetric shape and an upstream end and a downstream end. The fuel-evaporating device is heated, during operation, by the at least one catalytic element (140), and is supplied with fuel and air from the fuel supply means (133) and the air supply means (132). The heating device also comprises an outer housing (110), for containing said catalytic element (140) and said fuel-evaporating device (130). The fuel-evaporating device (130) is provided with at least one inner inlet pipe (132; 132b) in the generally upstream end thereof. The pipe (132; 132b) is arranged to inject fuel and/or air in a tangential direction into the generally upstream part of the fuel-evaporating device (130) such that a rotational flow is obtained therein. Moreover, the generally upstream end of the fuel-evaporating device (130) is arranged in the vicinity of the at least one catalytic element (140).
대표청구항▼
1. A heating device for combustion of liquid fuels, said device comprising: at least one catalytic element for catalytically burning a mixture of fuel and air,a fuel supply means being disposed on an upstream side of said at least one catalytic element,an air supply means being disposed on the upstr
1. A heating device for combustion of liquid fuels, said device comprising: at least one catalytic element for catalytically burning a mixture of fuel and air,a fuel supply means being disposed on an upstream side of said at least one catalytic element,an air supply means being disposed on the upstream side of said at least one catalytic element,a fuel-evaporating device having a substantially axisymmetric shape and having an upstream end and a downstream end, said fuel-evaporating device being heated, during operation, by the at least one catalytic element, and being supplied fuel and air from the fuel supply means and the air supply means,an outer housing, for containing said at least one catalytic element and said fuel-evaporating device,an inner wall disposed between the outer housing and said fuel evaporating device, the inner wall having the form of a downwardly projecting frustum with its downstream end located at and in fluid communication with a downstream end of said fuel evaporating device,wherein the upstream end of the fuel-evaporating device is closed,wherein the fuel-evaporating device is provided with at least one inner inlet pipe in a generally upstream end thereof, which said at least one inner inlet pipe is arranged to inject fuel from the fuel supply means and air from the air supply means in a tangential direction into the generally upstream end of the fuel-evaporating device such that a rotational flow is obtained in the fuel-evaporating device from the generally upstream end to the downstream end,wherein the upstream end of the fuel-evaporating device has a larger diameter than the downstream end of the fuel-evaporating device, and the generally upstream end of the fuel-evaporating device is arranged in a vicinity of the at least one catalytic element,wherein the heating device is constructed so that the fuel from the fuel supply means and the air from the air supply means flow toward the downstream end of the fuel evaporating device, leave the fuel evaporating device, and thereafter flow in an opposite direction, andwherein an electric heating element is provided in the vicinity of, or in contact with, the at least one catalytic element and/or the fuel-evaporating device. 2. A heating device according to claim 1, wherein the inner wall is coupled to the outer housing at their upper ends, such that an outer inlet chamber is formed there-between, wherein the outer inlet chamber further is provided with an outer inlet pipe connected to the upstream portion of the outer inlet chamber for delivering further air and wherein the outer inlet pipe is arranged to direct the air flow into the outer inlet chamber. 3. A heating device according to claim 2, wherein the outer inlet pipe is arranged to direct the air flow such that a tangential flow component is obtained. 4. A heating device according to claim 1, wherein the upstream end of the fuel evaporating device penetrates through the at least one catalytic element. 5. A heating device according claim 1, wherein a second inner inlet pipe is connected to the fuel evaporation device for directing a flow of air and/or fuel in a tangential direction, in order to induce a more powerful and more symmetric “swirl” to the fuel and air therein. 6. A stove comprising a heating device according to claim 1. 7. A vehicle heater comprising a heating device according to claim 1. 8. A heating device according to claim 1, wherein the downstream end of the fuel-evaporating device has an outlet opening, and the fuel-evaporating device is constructed so that fuel enters the fuel-evaporating device at the upstream end and exits the fuel-evaporating device at the downstream end.
Ruhl Andreas (De Pere WI) Rentzel Gert (Gelnhausen DEX) McGehee Patrick (Green Bay WI) Charamko Serguei (Potts Point AUX) Anderson Kim (Green Bay WI), Process and apparatus for burning oxygenic constituents in process gas.
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