IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
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출원번호 |
US-0535113
(2009-08-04)
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등록번호 |
US-8318004
(2012-11-27)
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발명자
/ 주소 |
- Drnevich, Raymond Francis
- Papavassiliou, Vasilis
- Raybold, Troy M.
- Pacouloute, Perry Raymond
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
4 인용 특허 :
1 |
초록
▼
A method and apparatus for producing a treated hydrocarbon containing stream for use as a feed to a hydrogen plant having a steam methane reformer in which an untreated hydrocarbon containing stream is introduced into two reaction stages connected in series to hydrogenate olefins and to convert orga
A method and apparatus for producing a treated hydrocarbon containing stream for use as a feed to a hydrogen plant having a steam methane reformer in which an untreated hydrocarbon containing stream is introduced into two reaction stages connected in series to hydrogenate olefins and to convert organic sulfur species to hydrogen sulfide. The second of the two stages can also be operated in a pre-reforming mode to generate additional hydrogen through introduction of the oxygen and steam into such stage. A sulfur tolerant catalyst is used in both stages to promote hydrogenation and oxidation reactions. Sulfur is removed between stages by adsorption of the hydrogen sulfide to prevent deactivation of the catalyst in the second of the stages that would otherwise occur during operation of the second reaction stage in a pre-reforming mode of operation.
대표청구항
▼
1. A method of producing a treated hydrocarbon containing stream for use as a feed to a hydrogen plant having a steam methane reformer, said method comprising: passing an untreated hydrocarbon containing stream of variable composition comprising hydrocarbons containing two or more carbon atoms inclu
1. A method of producing a treated hydrocarbon containing stream for use as a feed to a hydrogen plant having a steam methane reformer, said method comprising: passing an untreated hydrocarbon containing stream of variable composition comprising hydrocarbons containing two or more carbon atoms including olefins, organic sulfur species and hydrogen into a reaction system having a first reaction stage, a sulfur removal stage and a second reaction stage connected in series, thereby to produce the treated hydrocarbon containing stream, each of the first reaction stage and the second reaction stage containing a sulfur tolerant catalyst capable of promoting both hydrogenation reactions in a hydrogenation mode of operation and oxidation reactions in a pre-reforming mode of operation, respectively;operating the first reaction stage in the hydrogenation mode of operation such that a part of the olefins are hydrogenated into saturated hydrocarbons and at least part of the organic sulfur species are converted to hydrogen sulfide;removing the hydrogen sulfide in the sulfur removal stage;operating the second reaction stage in the hydrogenation mode of operation such that a further part of the olefins are hydrogenated into additional saturated hydrocarbons or alternatively, operating the second reaction stage in the pre-reforming mode of operation and reacting the hydrocarbons with oxygen and steam such that methane, carbon monoxide and additional hydrogen are produced and in either of the hydrogenation mode of operation or the pre-reforming mode of operation, any further part of the organic sulfur species are converted to form additional hydrogen sulfide; andthe organic sulfur species being reduced to a sufficiently low level in the first reaction stage and the sufficiently low level of the organic sulfur species coupled with the removal of the hydrogen sulfide in the sulfur removal stage preventing deactivation of the catalyst in the second reaction stage when the second reaction stage is operated in the pre-reforming mode. 2. The method of claim 1, wherein the treated hydrocarbon containing stream is discharged from the second reaction stage into a hydrotreater of the hydrogen plant. 3. The method of claim 1, wherein the first reaction stage and the second reaction stage are operated at space velocities in excess of 40,000 hours−1. 4. The method of claim 1 wherein first reaction stage and the second reaction stage are each operated at a space velocity in excess of about 100,000 hours−1. 5. The method of claim 1 wherein, in the pre-reforming mode, a natural gas stream is introduced into the second reaction stage to reduce hydrogen concentration of reactants, thereby to favor and increase production of the additional hydrogen. 6. The method of claim 3 or claim 4 or claim 5, wherein the hydrogen sulfide is removed between the first reaction stage and the second reaction stage in a zinc oxide bed. 7. The method of claim 6, wherein: the untreated hydrocarbon containing stream is a refinery off-gas stream;the untreated hydrocarbon containing stream contains between about 5 mol percent and about 25 mol percent by volume of olefins on a dry basis;the olefin content in the first reaction stage is reduced to less than about 5 mol percent by volume on a dry basis;the treated hydrocarbon containing stream contains less than 2 mol percent of olefins by volume on a dry basis; andthe sufficiently low level of the organic sulfur species coupled with the removal of the hydrogen sulfide in the sulfur removal stage results in a total sulfur content that is no more than about 20 ppm by volume. 8. The method of claim 7, wherein: prior to the untreated hydrocarbon containing feed stream being introduced into the first reaction stage, the untreated hydrocarbon containing stream is: compressed and preheated to a temperature of about 230° C. through indirect heat exchange with steam generated in the hydrogen plant; preheated in a feed preheater, through indirect heat exchange with the treated hydrocarbon containing stream, to a temperature of between about 260° C. and about 370° C.; and is subjected to a pretreatment stage configured to remove metals, chlorides and silica from the untreated hydrocarbon containing feed stream; andprior to the treated hydrocarbon containing stream being passed into the feed preheater, the treated hydrocarbon containing stream is passed through a boiler to generate saturated steam for the hydrogen plant and is thereby cooled to a temperature of between about 480° C. and about 590° C.; andthe first reaction stage is operated such that the hydrogen sulfide is removed in the sulfur removal stage at a temperature of no greater than about 450° C. 9. The method of claim 8, wherein prior to the hydrocarbon containing feed stream being compressed, sulfur containing compounds are removed therefrom in a bulk sulfur removal stage. 10. An apparatus for producing a treated hydrocarbon containing stream for use as a feed to a hydrogen plant having a steam methane reformer, said apparatus comprising: a reactor system configured to receive an untreated hydrocarbon containing feed stream of variable composition comprising hydrocarbons containing two or more carbon atoms including olefins, organic sulfur species and hydrogen and to produce the treated hydrocarbon containing stream with an olefin content and an organic sulfur species content that are less than those of the untreated hydrocarbon containing feed stream;the reactor system having a first reactor, a zinc oxide adsorption bed and a second reactor connected in series, the first reactor and the second reactor containing a sulfur tolerant catalyst capable of promoting both hydrogenation and oxidation reactions;the first reactor configured to operate in a hydrogenation mode of operation such that part of the olefins are hydrogenated into saturated hydrocarbons and at least part of the organic sulfur species are converted to hydrogen sulfide;the zinc oxide bed configured to adsorb the hydrogen sulfide produced in the first reactor; andthe second reactor configured to operate in the hydrogenation mode of operation such that a further part of the olefins are hydrogenated into additional saturated hydrocarbons or in a pre-reforming mode of operation to react the hydrocarbons with oxygen and steam, thereby to produce methane, carbon monoxide and additional hydrogen and in both of the hydrogenation mode of operation or the pre-reforming mode of operation, any remaining organic sulfur species are converted to additional hydrogen sulfide;the first reactor configured to reduce the organic sulfur species content to a sufficiently low level and the adsorption of the hydrogen sulfide in the zinc oxide adsorbent bed thereby preventing deactivation of the catalyst in the second reactor during operation in the pre-reforming mode of operation; and the reactor system having a first inlet in fluid communication with steam for introducing said steam into the second reactor, a second inlet in fluid communication with oxygen for introducing said oxygen into the second reactor, an outlet for discharging the treated hydrocarbon containing stream from the second reactor and first and second control valves connected to the first inlet and the second inlet for controlling the operation of the second reactor so that it is able to selectively operate in the hydrogenation mode of operation and the pre-reforming mode of operation. 11. The apparatus of claim 10 wherein the outlet of the reactor system is in flow communication with a hydrotreater of the hydrogen plant so that the treated hydrocarbon containing stream is discharged from the second reactor to the hydrotreater. 12. The apparatus of claim 10 wherein the reactor system has a third inlet and third control valve connected to the third inlet and in flow communication with the second reactor to allow a natural gas stream to be introduced into the second reactor during the pre-reforming mode to reduce hydrogen concentration of reactants within the second reactor and thereby to favor and increase production of the additional hydrogen. 13. The apparatus of claim 10, further comprising: a compressor to compress the hydrocarbon containing feed stream;a steam preheater of the hydrogen plant that is connected to the compressor so that the hydrocarbon containing feed stream is preheated through indirect heat exchange with steam generated in the hydrogen plant;a boiler connected to the outlet of the second reactor to generate saturated steam for the hydrogen plant through indirect heat exchange with the treated hydrocarbon containing stream;a feed preheater connected to the steam preheater and to the boiler to further preheat the hydrocarbon containing feed stream through indirect heat exchange with the treated hydrocarbon containing stream, thereby to cool the treated hydrocarbon containing stream; anda guard bed connected between the feed preheater and the first reactor and configured to remove metals, chlorides and silica from the hydrocarbon containing feed stream. 14. The apparatus of claim 13, further comprising a bulk sulfur removal stage connected to the compressor to remove sulfur compounds from the hydrocarbon containing feed stream prior to the compression thereof.
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