High-temperature furnace having selectively permeable membranes for oxygen enrichment
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B01D-013/00
출원번호
US-0443685
(1982-11-22)
발명자
/ 주소
Shimizu, Shoji
Asakawa, Shirow
Saito, Yukihiro
Ito, Yoshimasa
출원인 / 주소
Matsushita Electric Industrial Company, Limited, Osaka Gas Co., Ltd.
대리인 / 주소
Lowe, King, Price & Becker
인용정보
피인용 횟수 :
12인용 특허 :
9
초록▼
A high-temperature furnace comprising a gas burner (2) for burning a mixture of air and fuel in a combustion chamber (1), and an oxygen enricher (4). The enricher comprises a plurality of cells (13a) each comprising a pair of spaced apart oxygen permeable membranes (14), and a suction fan (12) for d
A high-temperature furnace comprising a gas burner (2) for burning a mixture of air and fuel in a combustion chamber (1), and an oxygen enricher (4). The enricher comprises a plurality of cells (13a) each comprising a pair of spaced apart oxygen permeable membranes (14), and a suction fan (12) for drawing air through the spaces between the cells (13a). The cells (13a) are coupled by a manifold (13b) to a vacuum pump (18) which causes the oxygen molecules of the air to pass through the membranes to increase the oxygen content of the air in the cells (13a), the oxygen-enriched air being drawn by the suction pump (18) to the burner (2). Preferably, a heat exchanger (31) is provided for transferring thermal energy of the emissions from the combustion chamber (1) to the air drawn by the suction fan (12) to maintain the oxygen concentration constant for a given operating condition of the combustion chamber.
대표청구항▼
1. A high-temperature furnace comprising: a combustion chamber having a burner for burning a mixture of air and fuel therein and an exhaust outlet for exhausting emissions therefrom to the outside; a plurality of longitudinally extending, transversely spaced cells to form air passageways therebe
1. A high-temperature furnace comprising: a combustion chamber having a burner for burning a mixture of air and fuel therein and an exhaust outlet for exhausting emissions therefrom to the outside; a plurality of longitudinally extending, transversely spaced cells to form air passageways therebetween, each of said cells comprising a pair of transversely spaced-apart oxygen permeable membranes for selectively passing oxygen molecules from air in said air passageways to said cells so that the gaseous mixture in said cells is oxygen-enriched air, said air passageways having upstream ends and downstream ends; conduit means connected from downstream ends of said cells to said burner; first means for forcibly generating airstreams in said air passageways in a direction from said upstream ends to said downstream ends; second means in said conduit means for generating a negative pressure in said cells with respect to said air passageways to cause said oxygen-enriched air to flow forcibly to said burner; and pressure increasing means connected in said conduit means between said second means and said burner for increasing the pressure of oxygen-enriched air delivered to said burner. 2. A high-temperature furnace as claimed in claim 1, further comprising a fuel source connected to said conduit means at a point between said pressure increasing means and said burner and pressure regulating means connected between said fuel source and said point for supplying pressure-regulated fuel to said burner. 3. A high temperature furnace as claimed in claim 1, further comprising: heat exchanging means located at a point upstream of said air passageways for transferring thermal energy from said emissions to the air in said air passageways. 4. A high-temperature furnace as claimed in claim 3, wherein the air in said air passageways is heated by said heat exchanging means to a temperature equal to or higher than 30° C. 5. A high-temperature furnace as claimed in claim 3, further comprising a pump for forcing said emissions to said heat exchanging means. 6. A high temperature furnace as claimed in claim 3, wherein said heat exchanging means comprises a first heat exchanger located at a point upstream of said air passageways, a second heat exchanger connected between said first heat exchanger and the exhaust outlet of the combustion chamber by conduit means, and liquid thermal transferring medium circulating through said first and second heat exchangers, said second heat exchanger transferring thermal energy from said emissions to said liquid medium to increase the temperature of said medium flowing in a direction from said second heat exchanger to said first heat exchanger, said first heat exchanger transferring thermal energy from said liquid medium to the air in said air passageways. 7. A high-temperature furnace as claimed in claim 1, further comprising: first heat exchanging means located at a point upstream of said air passageways for transferring thermal energy from said emissions to said air in said air passageways; and second heat exchanging means connected in said conduit means between said pressure increasing means and said burner for transferring thermal energy from the emissions to said oxygenenriched air at a point downstream of said pressure increasing means. 8. A high-temperature furnace as claimed in claim 7, wherein said first means comprises a suction fan located at a point downstream of said air passageways. 9. A high-temperature furnace as claimed in claim 7, wherein said second means comprises a vacuum pump. 10. A high-temperature furnace as claimed in claim 7, wherein said membrane comprises polydimethylsiloxane. 11. A high-temperature furnace as claimed in claim 7, further comprising a fuel source connected to said conduit means at a point between said pressure increasing means and said burner and pressure regulating means connected between said fuel source and said point for supplying pressure-regulated fuel to said burner. 12. A high-temperature furnace as claimed in claim 7, further comprising first air-pressure regulating means connected to said conduit means at a point downstream of said second means for discharging pressure-regulated air to the outside, and second air-pressure regulating means connected to said conduit means at a point downstream of said first air-pressure regulating means for introducing outside air to said conduit means. 13. A high-temperature furnace as claimed in claim 7, further comprising a first regulator connected in said conduit means for discharging a part of air delivered from said second means, and a second regulator connected downstream of said first regulator for introducing outside air to said air delivered from said second means. 14. A high-temperature furnace comprising: a combustion chamber having a burner for burning a mixture of air and fuel therein and an exhaust outlet for exhausting emissions therefrom to the outside; a plurality of longitudinally extending, transversely spaced cells to form air passageways therebetween, each of said cells comprising a pair of transversely spaced-apart oxygen permeable membranes for selectively passing oxygen molecules from air in said air passageways to said cells so that the gaseous mixture in said cells is oxygen-enriched air, said air passageways having upstream ends and downstream ends; conduit means connected from downstream ends of said cells to said burner; first means for forcibly generating airstreams in said air passageways in a direction from said upstream ends to said downstream ends; second means in said conduit means for generating a negative pressure in said cells with respect to said air passageways to cause said oxygen-enriched air to flow forcibly to said burner; and first air-pressure regulating means connected to said conduit means at a point downstream of said second means for discharging pressure-regulated air to the outside, and second air-pressure regulating means connected to said conduit means at a point downstream of said first air-pressure regulating means for introducing outside air to said conduit means. 15. A high-temperature furnace as claimed in claim 14, further comprising a fuel source connected to said conduit means at a point between said pressure increasing means and said burner and pressure regulating means connected between said fuel source and said point for supplying pressure-regulated fuel to said burner. 16. A high temperature furnace as claimed in claim 14, further comprising: heat exchanging means located at a point upstream of said air passageways for transferring thermal energy from said emissions to the air in said air passageways. 17. A high-temperature furnace as claimed in claim 14, further comprising: first heat exchanging means located at a point upstream of said air passageways for transferring thermal energy from said emissions to said air in said air passageways; and second heat exchanging means connected in said conduit means between said pressure increasing means and said burner for transferring thermal energy from the emissions to said oxygen-enriched air at a point downstream of said pressure increasing means.
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이 특허에 인용된 특허 (9)
Frondorf William A. (Rocky River OH), Fuel economizer process and apparatus.
Ryzin Joseph V. (Kailua HI) Andres Jose M. (Honolulu HI) Jensen Dale (Honolulu HI) Ruggieri Robert (Honolulu HI), Gill for extracting oxygen from oxygen bearing fluids.
Marin, Ovidiu; MacAdam, Scott; Penfornis, Erwin; Chatel-Pelage, Fabienne, Steam-generating combustion system and method for emission control using oxygen enhancement.
Marin,Ovidiu; Macadam,Scott; Penfornis,Erwin; Chatel Pelage,Fabienne, Steam-generating combustion system and method for emission control using oxygen enhancement.
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