• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    A gas flare includes an elongate primary combustion chamber and at least one supplementary combustion chamber. A primary burner is positioned in the primary combustion chamber. A secondary burner is positioned in the supplementary combustion chamber. The primary combustion chamber has an outlet which is coupled with an inlet to the supplementary combustion chamber. A flow path is created for waste gas past the primary burner in the primary combustion chamber and past the supplementary burner in the supplementary combustion chamber, so the waste gas is subjected to multiple burner exposure for more complete combustion.
    公开号:US20010003038A1
    申请号:US09/726,160
    申请日:2000-11-29
    公开日:2001-06-07
    发明作者:Adair Rasmussen
    申请人:Adair Rasmussen;
    IPC主号:F23J15-003
    专利说明:
    [0001] The present invention relates to a gas flare. [0001] BACKGROUND OF THE INVENTION
    [0002] Many oil wells produce small quantities of waste gas. The normal procedure has been to dispose of such small quantities of waste gas with a gas flare. In recent years, government regulations relating to protection of the environment have become more stringent. Flaring of waste gas is prohibited unless it meets emission standards. The oil wells that have been most affected by the more stringent regulations are those that produce hydrogen sulfide gas, commonly known as “sour” gas. Oil wells producing small quantities of sour gas are being shut down, as existing gas flare technologies are either incapable of meeting emission standards or so costly that the oil wells are no longer economically viable when equipped with such gas flares. [0002] SUMMARY OF THE INVENTION
    [0003] What is required is a gas flare that is capable of meeting stringent emission standards at a comparatively low cost. [0003]
    [0004] According to the present invention there is provided a gas flare, which includes an elongate primary combustion chamber having a first end, a second end, an inlet at the first end, and an outlet at the second end. A primary burner is disposed between the first end and the second end. At least one elongate supplementary combustion chamber is also provided having a first end, a second end, an inlet at the first end, and an outlet at the second end. A supplementary burner is disposed between the first end and the second end. The outlet of the primary combustion chamber is coupled with the inlet of the supplementary combustion chamber, such that a flow path is created for waste gas past the primary burner in the primary combustion chamber and past at least one supplementary burner in the supplementary combustion chamber, whereby the waste gas is subjected to multiple burner exposure. [0004]
    [0005] A gas flare constructed in accordance with the present invention operates on the principle that more complete combustion of waste gases is obtained when the waste gases are subjected to multiple burners. The preferred configuration involves supplementary combustion chambers which are stacked on top of the primary combustion chamber. [0005]
    [0006] Once the basic teachings of the present invention are understood there are further measures that can be taken to increase efficiency. In order to ensure there is adequate oxygen for combustion, each of the supplementary combustion chambers has a supplementary source of combustion air. In order to ensure that the heat is sufficient to ensure as complete a burn as possible, the primary burner and each of the supplementary burners is an electric heating element. Electric heating elements permit greater temperature control. [0006]
    [0007] Although beneficial results may be obtained through the use of the gas flare, as described above, even more beneficial results may be obtained when the outlet of the last of the supplementary combustion chambers is connected to a cooling and chemical reaction chamber. This enables chemicals to be introduced into and react with the waste gas as it cools. The addition of chemicals can turn the residue of the waste gas into a usable byproduct. For example, the addition of ammonia in controlled quantities can turn sour gas residue into fertilizer. [0007] BRIEF DESCRIPTION OF THE DRAWINGS
    [0008] These and other features of the invention will become more apparent from the following description in which reference is made to the appended drawings, wherein: [0008]
    [0009] FIG. 1 is a schematic diagram of a gas flare fitted onto a source of waste gas. [0009]
    [0010] FIG. 2 is a side elevation view in section of the gas flare shown in FIG. 1. [0010]
    [0011] FIG. 3 is an end elevation view in section of the gas flare shown in FIG. 1. [0011]
    [0012] FIG. 4 is a schematic diagram of the gas flare shown in FIG. 1 with heat exchange capability. [0012] DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT
    [0013] The preferred embodiment, a gas flare generally identified by reference numeral [0013] 10, will now be described with reference to FIGS. 1 through 4.
    [0014] Referring to FIG. 1, gas flare [0014] 10 includes a body 12 and an insulating enclosure 14. A gas feed line 16 feeds gas into an air feed line 18. Air is driven along air feed line 18 by a first fan 20 and through a first flame arrestor 22 and a venturi 24. The action of the air passing through venturi 24 draws a combustible waste gas along gas feed line 16 from a source 26, such as a tank, through a check valve 28 and a second flame arrestor 30. The mixture of waste gas and air is forced from venturi 24 through insulating enclosure 14 via an inlet 32 into a first elongate primary combustion chamber 34 of body 12.
    [0015] Referring to FIG. 2, insulating enclosure [0015] 14 has a body 36 and a lid 38. Body 36 of insulating enclosure 14 has a base 42 and peripheral sidewalls 44 extending upward from base 42 to an upper peripheral edge 46, defining an interior cavity 48. A gasket 50 provides an air tight seal between upper peripheral edge 46 of peripheral sidewalls 44 and a periphery 56 of bottom surface 58 of lid 38.
    [0016] Body [0016] 12 of gas flare 10 is constructed of a material capable of withstanding exposure to temperatures up to 3000 F. without sustaining damage or distortion. Body 12 of gas flare 10 has several levels, including elongate primary combustion chamber 34 positioned at a first level, an elongate first supplementary combustion chamber 52 positioned at a second level, and an elongate second supplementary combustion chamber 54 positioned at a third level. There are several ways in which the levels of body 12 can be assembled. Referring to FIG. 3, it has been found that one method by which the levels of body 12 can be stacked so as to minimize heat losses and to minimize the a size of interior cavity 48 of insulating enclosure 14 within which body 12 is located is as follows. Each of primary combustion chamber 34, first supplementary combustion chamber 52 and second combustion chamber 54 has peripheral sidewalls 106 and a base 108. Sidewalls 106 of each of first supplementary combustion chamber 52 and second supplementary combustion chamber 54 extend below base 108. A peripheral trough 110 extends around an interior surface 111 at an upper peripheral edge 112 of sidewalls 106 of each of primary combustion chamber 34 and first supplementary combustion chamber 52. Each of first supplementary combustion chamber 52 and second supplementary chamber 54 are sized such that a lower peripheral edge 116 of sidewalls 106 can sit within trough 110 of the level immediately below. A gasket 118 provides for a gas tight seal between lower peripheral edge 116 of sidewalls 106 and trough 110. Base 108 of first supplemental combustion chamber 52 encloses a top of primary combustion chamber 34 and base 108 of second supplementary combustion chamber 54 encloses a top of first supplementary combustion chamber 52. A lid 120 closes the top of second supplementary combustion chamber 54. A gasket 122 provides for a gas tight seal between an upper peripheral edge 124 of sidewalls 106 of second supplemental combustion chamber 54 and lid 120.
    [0017] Referring to FIG. 2, primary combustion chamber [0017] 34 has a first end 60 and a second end 62. Inlet 32 feeds the mixture of air and combustible gas into primary combustion chamber 34 at first end 60 as indicated by arrow 78. A primary burner 64 in the form of an electric heating element is disposed between first end 60 and second end 62. An outlet 66 is at second end 62 of primary combustion chamber 34.
    [0018] First supplementary combustion chamber [0018] 52 has a first end 68, a second end 70, an inlet 72 at first end 68, an outlet 74 at second end 70, and a first supplementary burner 76 in the form of an electric heating element disposed between first end 68 and second end 70. When the levels of body 12 are stacked as shown in FIG. 2, outlet 66 of primary combustion chamber 34 is coupled with inlet 72 of first supplementary combustion chamber 52. Referring to FIG. 1, a second fan 82 forces air through a first supplementary air inlet 83 into first supplementary combustion chamber 52, as indicated by arrow 85 to support combustion of the waste gas by first supplemental burner 76.
    [0019] Referring to FIG. 2, second supplementary combustion chamber [0019] 54 has a first end 84, a second end 86, an inlet 88 at first end 84, an outlet 90 at second end 86, and a second supplementary burner 92 in the form of an electric heating element disposed between first end 84 and second end 86. Referring to FIG. 1, a third fan 96 forces air through a second supplementary air inlet 98 into second supplementary combustion chamber 54, as indicated by arrow 100 to support combustion of the waste gas by second supplemental burner 92. When the levels of body 12 are stacked as shown in FIG. 2, outlet 74 of first supplementary combustion chamber 52 is coupled with inlet 88 of second supplementary combustion chamber 54. A flow path is created for waste gas past primary burner 64 in primary combustion chamber 34 as indicated by arrow 78, past first supplementary burner 76 in first supplementary combustion chamber 52 as indicated by arrow 80, and past second supplementary burner 92 in second supplementary combustion chamber 54 as indicated by arrow 94. The waste gas thereby is subjected to multiple burner exposure before exiting second supplementary combustion chamber 54 via outlet 90, as indicated by arrow 102.
    [0020] The use of electric heating elements for primary burner [0020] 64, first supplementary burner 76 and second supplementary burner 92 with insulating enclosure 14 enables a temperature in each of the levels of body 12 to be kept substantially constant during operation of gas flare 10.
    [0021] The provision of air through first supplementary air inlet [0021] 83 and second supplementary air inlet 98 ensures that the ratio of air to waste gases is high enough so that sufficient air is available for the complete combustion of waste gases from source 26. A ratio of 10 volumes of air for each volume of waste gases has been found to be sufficient for several applications using gas flare 10.
    [0022] Referring to FIG. 1, first flame arrestor [0022] 22 and second flame arrestor 30 serve to prevent flash back from gas flare 10 into air feed line 18 and gas feed line 16 in the event that there is a power failure and first fan 20 is not operating.
    [0023] The nature of the products from combustion of waste gas either may be harmful, and so cannot be discharged into the atmosphere, or may be valuable as chemical feedstock, and so may be worth capturing. For example, when the waste gas contains hydrogen sulfide, combustion of said waste gas produces oxides of sulfur. It is undesirable to vent oxides of sulfur as they are harmful pollutants and they are a factor in the formation of acid rain. It is therefore desirable to scrub oxides of sulfur from the exit gases from second supplementary combustion chamber [0023] 54. Oxides of sulfur can be reacted with other chemical reagents to form useful and valuable products, such as a reaction with ammonia to form a compound valuable as a fertilizer. Referring to FIG. 1, outlet 90 of second supplementary combustion chamber 54 is connected to a combination of a cooling chamber 130 and a chemical reaction chamber 132 external to insulating enclosure 14. Chemical reagents are introduced from a supply vessel 134 into chemical reaction chamber 132 and react with the products from combustion of the waste gas as the products cool or after they are cooled. Depleted exhaust gases are vented to atmosphere through vent 136 and the reaction products are continually removed after reaction through take of 138.
    [0024] Gas flare [0024] 10 can be reconfigured so that a section of outlet 90 and a section of inlet 32 together serve as a heat exchanger 140, as illustrated schematically in FIG. 4. The heat of the hot exhaust from outlet 90 is used to pre-heat the mixture of air and waste gases fed through inlet 32 into primary combustion chamber 34, thereby improving the overall thermal and operating efficiency of gas flare 10.
    [0025] In proto-type development is was discovered that only high temperature materials could be used. This led to the use of ceramic in the commercial version. With the switch to ceramic the unit became one piece rather than modular, as had been the case with the original prototype. It was also determined that better performance could be obtained when the electrical elements used as burners were spaced at intervals along each combustion chamber. The number of electrical elements used depends upon the length of the unit. With a combusion chamber thirty four inches long, three electrical elements were found to be adequate. [0025]
    [0026] Care should be taken when introducing gas into the unit. The unit should be preheated in preparation for receiving the gas. There should also be circulating through the unit an abundant supply of combustion air. If gas is allowed to accummulate in the unit and is then ignited, an explosion may occur. [0026]
    [0027] It will be apparent to one skilled in the art that modifications may be made to the illustrated embodiment without departing from the spirit and scope of the invention as hereinafter defined in the Claims. [0027]
    权利要求:
    Claims (7)
    [1" id="US-20010003038-A1-CLM-00001] 1. A gas flare, comprising:
    an elongate primary combustion chamber having a first end, a second end, an inlet at the first end, an outlet at the second end and at least one primary burner disposed between the first end and the second end;
    at least one elongate supplementary combustion chamber having a first end, a second end, an inlet at the first end, an outlet at the second end and at least one supplementary burner disposed between the first end and the second end, the outlet of the primary combustion chamber being coupled with the inlet of the at least one supplementary combustion chamber, such that a flow path is created for waste gas past the at least one primary burner in the primary combustion chamber and past the at least one supplementary burner in the at least one supplementary combustion chamber, whereby the waste gas is subjected to multiple burner exposure.
    [2" id="US-20010003038-A1-CLM-00002] 2. The gas flare as defined in
    claim 1 , wherein each of the at least one supplementary combustion chambers has a supplementary source of combustion air.
    [3" id="US-20010003038-A1-CLM-00003] 3. The gas flare as defined in
    claim 1 , wherein the at least one primary burner and each of the at least one supplementary burners is an electric heating element.
    [4" id="US-20010003038-A1-CLM-00004] 4. The gas flare as defined in
    claim 1 , wherein the outlet of the at least one supplementary combustion chamber is connected to a cooling and chemical reaction chamber, whereby chemicals are introduced into and react with the waste gas as it cools.
    [5" id="US-20010003038-A1-CLM-00005] 5. The gas flare as defined in
    claim 1 , wherein the at least one supplementary combustion chamber is stacked on top of the primary combustion chamber.
    [6" id="US-20010003038-A1-CLM-00006] 6. A gas flare, comprising:
    a body having several levels, including:
    an elongate primary combustion chamber positioned on a first level, the primary combustion chamber having a first end, a second end, an inlet at the first end, an outlet at the second end and a primary burner assembly in the form of electric heating elements disposed between the first end and the second end;
    a elongate first supplementary combustion chamber positioned on a second level above the first level, the first supplementary combustion chamber having a first end, a second end, an inlet at the first end, an outlet at the second end and a first supplementary burner assembly in the form of electric heating elements disposed between the first end and the second end, the outlet of the primary combustion chamber being coupled with the inlet of the first supplementary combustion chamber;
    a elongate second supplementary combustion chamber positioned on a third level above the second level, the second supplementary combustion chamber having a first end, a second end, an inlet at the first end, an outlet at the second end and a second supplementary burner assembly in the form of an electric heating element disposed between the first end and the second end, the outlet of the first supplementary combustion chamber being coupled with the inlet of the second supplementary combustion chamber, such that a flow path is created for waste gas past the primary burner assembly in the primary combustion chamber, past the first supplementary burner assembly in the first supplementary combustion chamber and past the second supplementary burner assembly in the second supplementary combustion chamber, whereby the waste gas is subjected to multiple burner exposure, each of the first supplementary combustion chamber and the second supplementary combustion chambers have a supplementary source of combustion air.
    [7" id="US-20010003038-A1-CLM-00007] 7. The gas flare as defined in
    claim 6 , wherein the outlet of the second supplementary combustion chamber is connected to a cooling and chemical reaction chamber, whereby chemicals are introduced into and react with the waste gas as it cools.
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    同族专利:
    公开号 | 公开日
    CA2292199C|2008-10-07|
    US6464491B2|2002-10-15|
    CA2292199A1|2001-06-06|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US20120227680A1|2011-03-07|2012-09-13|Dynamis Energy, Llc|System and method for thermal chemical conversion of waste|
    JP2017020783A|2016-09-26|2017-01-26|光洋サーモシステム株式会社|Exhaust gas combustion device|NL176099C|1974-10-23|1985-02-18|Basf Ag|DEVICE FOR BURNING PROCESS GASES.|
    US4070146A|1975-03-18|1978-01-24|Combustion Unlimited Incorporated|Flare burner for waste combustible gas|
    US4038024A|1975-12-03|1977-07-26|Combustion Unlimited Incorporated|Flare stack gas burner|
    US4065248A|1976-01-08|1977-12-27|National Airoil Burner Co., Inc.|Ground flare|
    US4139339A|1977-02-17|1979-02-13|Combustion Unlimited Incorporated|Flare gas stack with purge control|
    US4090840A|1977-05-11|1978-05-23|Combustion Unlimited Incorporated|Multi-pilot gas conservation system for flare burners|
    US4127380A|1977-08-18|1978-11-28|Combustion Unlimited Incorporated|Ignition system for waste gas flares with gas compensation|
    US4128389A|1977-08-22|1978-12-05|Combustion Unlimited Incorporated|Flare stack gas burner|
    US4344751A|1979-03-24|1982-08-17|The British Petroleum Company Limited|Flares|
    US4323343A|1980-02-04|1982-04-06|John Zink Company|Burner assembly for smokeless combustion of low calorific value gases|
    AU594549B2|1986-11-05|1990-03-08|Bonne Engineering Pty Ltd|Incinerators|
    US4892477A|1987-09-30|1990-01-09|Larry Zimmiond|Apparatus for flaring gas|
    US5024817A|1989-12-18|1991-06-18|The Air Preheater Company, Inc.|Twin bed regenerative incinerator system|
    US5460789A|1991-12-20|1995-10-24|Eisenmann Maschinenbau Kg|Apparatus for purifying pollutant-containing outgoing air from industrial installations by regenerative afterburning|
    JPH05332523A|1992-06-02|1993-12-14|Takuma Co Ltd|Heat accumulative deodorizing device|
    US5938426A|1997-09-10|1999-08-17|Mcgehee; Van C.|Pilotless flare ignitor|US7025590B2|2004-01-15|2006-04-11|John Zink Company, Llc|Remote staged radiant wall furnace burner configurations and methods|
    法律状态:
    2003-03-25| CC| Certificate of correction|
    2006-02-02| FPAY| Fee payment|Year of fee payment: 4 |
    2010-05-24| REMI| Maintenance fee reminder mailed|
    2010-10-15| LAPS| Lapse for failure to pay maintenance fees|
    2010-11-15| STCH| Information on status: patent discontinuation|Free format text: PATENT EXPIRED DUE TO NONPAYMENT OF MAINTENANCE FEES UNDER 37 CFR 1.362 |
    2010-12-07| FP| Expired due to failure to pay maintenance fee|Effective date: 20101015 |
    优先权:
    申请号 | 申请日 | 专利标题
    CA 2292199|CA2292199C|1999-12-06|1999-12-06|Gas flare|
    CA2292199||1999-12-06||
    CA2,292,199||1999-12-06||
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