IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0117166
(2008-05-08)
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등록번호 |
US-8454354
(2013-06-04)
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발명자
/ 주소 |
- Watson, Matthew James
- D'Agostini, Mark Daniel
- Cao, Jin
- Slavejkov, Aleksandar Georgi
|
출원인 / 주소 |
- Air Products and Chemicals, Inc.
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
1 인용 특허 :
23 |
초록
▼
An oxy-fuel burner that co-fires liquid fuel and gaseous fuel to create a more luminous flame. The characteristics of a liquid fuel spray and the gaseous fuel and primary oxidant gas flows, as well as the geometry of the burner is adapted to shroud the liquid fuel from the primary oxidant until it e
An oxy-fuel burner that co-fires liquid fuel and gaseous fuel to create a more luminous flame. The characteristics of a liquid fuel spray and the gaseous fuel and primary oxidant gas flows, as well as the geometry of the burner is adapted to shroud the liquid fuel from the primary oxidant until it exits a precombustor and to prevent the liquid fuel from contacting the walls of the precombustor.
대표청구항
▼
1. A combustion process comprising: injecting a liquid fuel from an atomizing nozzle of a burner into a precombustor passage, the liquid fuel having an effective momentum rate ML at the atomizing nozzle;injecting a gaseous fuel through a gaseous fuel discharge orifice of the burner into the precombu
1. A combustion process comprising: injecting a liquid fuel from an atomizing nozzle of a burner into a precombustor passage, the liquid fuel having an effective momentum rate ML at the atomizing nozzle;injecting a gaseous fuel through a gaseous fuel discharge orifice of the burner into the precombustor passage thereby forming a sleeve of gaseous fuel about the liquid fuel proximate the atomizing nozzle, the gaseous fuel having a momentum rate MG at the gaseous fuel discharge orifice, wherein ML9×HHVLF×mLF;introducing an oxidant gas through a primary oxidant discharge orifice of the burner into the precombustor passage thereby forming a sleeve of the oxidant gas about the gaseous fuel proximate the gaseous fuel discharge orifice, the oxidant gas having an oxygen concentration of at least 23 vol. %;combusting a portion of the gaseous fuel with a portion of the oxidant gas in the precombustor passage to form a partially combusted mix; andpassing the partially combusted mix into a furnace for further combustion thereof; wherein the burner is mounted in a wall of the furnace. 13. A burner comprising: a primary oxidant conduit with a primary oxidant discharge orifice, the primary oxidant conduit having a width-to-height ratio of at least 2 at the primary oxidant discharge orifice;a gaseous fuel conduit with a gaseous fuel discharge orifice in spaced relation to the primary oxidant discharge orifice, the gaseous fuel conduit having a width-to-height ratio of at least 2 at the gaseous fuel discharge orifice, wherein at least a portion of the gaseous fuel conduit is situated within the primary oxidant conduit;a liquid fuel conduit with a liquid fuel atomizing nozzle located at a discharge end of the liquid fuel conduit, the liquid fuel atomizing nozzle in spaced relation to the gaseous fuel discharge orifice, wherein at least a portion of the liquid fuel conduit is situated within the gaseous fuel conduit; anda precombustor passage that extends from the primary oxidant discharge orifice to a flame port, the precombustor passage having a width, PW, and a height, PH, wherein PWPH≥2;wherein the liquid fuel atomizing nozzle is capable of producing a spray with a width-to-height ratio greater than 2.0; andwherein the burner is mounted to a wall of a furnace. 14. A burner comprising: a primary oxidant conduit with a primary oxidant discharge orifice;a gaseous fuel conduit with a gaseous fuel discharge orifice in spaced relation to the primary oxidant discharge orifice, the gaseous fuel conduit having a first cross-sectional area, A1, wherein at least a portion of the gaseous fuel conduit is situated within the primary oxidant conduit;a liquid fuel conduit with a liquid fuel atomizing nozzle located at a discharge end of the liquid fuel conduit, the liquid fuel atomizing nozzle in spaced relation to the gaseous fuel discharge orifice, the liquid fuel atomizing nozzle having a second cross-sectional area, A2, wherein at least a portion of the liquid fuel conduit is situated within the gaseous fuel conduit and wherein 200≤A1A2;a precombustor passage that extends from the primary oxidant discharge orifice to a flame port; andan oxidant staging passage terminating in an oxidant staging port wherein at least a portion of the oxidant staging passage is directly underneath the precombustor passage;wherein the burner is mounted in a wall of a furnace. 15. The burner of claim 14, wherein 500≤A1A2≤74,000. 16. A burner comprising: a primary oxidant conduit with a primary oxidant discharge orifice, the primary oxidant conduit having a width-to-height ratio of at least 2 at the primary oxidant discharge orifice;a gaseous fuel conduit with a gaseous fuel discharge orifice in spaced relation to the primary oxidant discharge orifice, the gaseous fuel conduit having a width-to-height ratio of at least 2 at the gaseous fuel discharge orifice, wherein at least a portion of the gaseous fuel conduit is situated within the primary oxidant conduit;a liquid fuel conduit with a liquid fuel atomizing nozzle located at a discharge end of the liquid fuel conduit, the liquid fuel atomizing nozzle in spaced relation to the gaseous fuel discharge orifice, wherein at least a portion of the liquid fuel conduit is situated within the gaseous fuel conduit; anda precombustor passage that extends from the primary oxidant discharge orifice to a flame port, the precombustor passage having a length PL, a width, PW, and a height, PH, wherein PWPH≥2;wherein the gaseous fuel discharge orifice is configured to form within the precombuster passage a sleeve of gaseous fuel about liquid fuel discharged from the liquid fuel atomizing nozzle;wherein the primary oxidant discharge orifice is configured to form within the precombuster passage a sleeve of primary oxidant about gaseous fuel discharged from the gaseous fuel discharge orifice; andwherein the burner is mounted to a wall of a furnace. 17. The burner of claim 16, wherein the liquid fuel atomizing nozzle is capable of producing a spray with a width-to-height ratio greater than 1 and a spray angle in the width dimension which is in a range of 0.9 to 6.0 times: arctan(0.5(PW)PL). 18. The burner of claim 16, wherein the liquid fuel atomizing nozzle is capable of producing a spray with a width-to-height ratio greater than 1 and a spray angle in the width dimension which is in a range of 1.6 to 5.0 times: arctan(0.5(PW)PL). 19. The burner of claim 16, further comprising an oxidant staging passage terminating in an oxidant staging port wherein at least a portion of the oxidant staging passage is directly underneath the precombustor passage. 20. The burner of claim 16, wherein the liquid fuel atomizing nozzle is capable of producing a spray with a width-to-height ratio greater than 2.0. 21. The burner of claim 16, wherein the liquid fuel atomizing nozzle is capable of producing a spray with a width-to-height ratio greater than 1 and a spray angle in the width dimension of up to 120 degrees. 22. The burner of claim 16, wherein the liquid fuel atomizing nozzle is capable of producing a spray with a width-to-height ratio greater than 1 and a spray angle in the width dimension between 30 and 95 degrees. 23. The burner of claim 16, wherein the liquid fuel atomizing nozzle comprises a liquid fuel discharge orifice in spaced relation to the gaseous fuel discharge orifice in a position ranging from being recessed 3 times the height of the gaseous fuel discharge orifice and protruding 0.75 times the height of the gaseous fuel discharge orifice. 24. The burner of claim 23, wherein the position ranges from being recessed 3 times the height of the gaseous fuel discharge orifice and even with the gaseous fuel discharge orifice.
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