Desulfurization process using alkali metal reagent
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IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
C10G-019/08
C10G-019/02
C10G-019/00
출원번호
US-0967425
(2010-12-14)
등록번호
US-8696890
(2014-04-15)
발명자
/ 주소
Soto, Jorge L.
Raterman, Michael
Leta, Daniel P.
Vann, Walter D.
Han, Lu
McConnachie, Jonathan M.
Bielenberg, James R.
Baird, Jr., William C.
Bearden, Jr., Roby
출원인 / 주소
ExxonMobil Research and Engineering Company
대리인 / 주소
Bordelon, Bruce M.
인용정보
피인용 횟수 :
0인용 특허 :
24
초록▼
Hydrocarbon feedstreams are desulfurized using an alkali metal reagent, optionally in the presence of hydrogen. Improved control over reaction conditions can be achieved in part by controlling the particle size of the alkali metal salt and by using multiple desulfurization reactors. After separation
Hydrocarbon feedstreams are desulfurized using an alkali metal reagent, optionally in the presence of hydrogen. Improved control over reaction conditions can be achieved in part by controlling the particle size of the alkali metal salt and by using multiple desulfurization reactors. After separation of the spent alkali metal reagent, the resulting product can have suitable characteristics for pipeline transport and/or further refinery processing.
대표청구항▼
1. A process for desulfurizing a hydrocarbon feedstream, comprising: a) mixing at least a portion of a hydrocarbon feedstream having an API gravity of about 19 or less with an aqueous alkali metal salt reagent solution to form a mixed reagent stream;b) heating the mixed reagent stream to a temperatu
1. A process for desulfurizing a hydrocarbon feedstream, comprising: a) mixing at least a portion of a hydrocarbon feedstream having an API gravity of about 19 or less with an aqueous alkali metal salt reagent solution to form a mixed reagent stream;b) heating the mixed reagent stream to a temperature of at least 150° C.;c) removing at least a portion of the water from the mixed feedstream;d) exposing, after removing the at least a portion of the water, at least a portion of the mixed reagent feedstream to first effective desulfurization conditions to form a first intermediate desulfurized stream;e) separating the first intermediate desulfurized stream to form at least a first low-boiling point fraction and a first bottoms fraction wherein the first low-boiling point fraction is comprised of naphtha, distillate, or a combination thereof;f) adding at least a portion of the first low-boiling point fraction to an alkali metal salt regeneration process;g) exposing at least a portion of the first bottoms fraction to second effective desulfurization conditions to form a second intermediate desulfurized stream;h) separating the second intermediate desulfurized stream to form at least a second low-boiling point fraction and a second bottoms fraction, the second bottoms fraction including a desulfurized product and spent alkali metal salt;i) mixing at least a portion of the second bottoms fraction with water; andi) separating the mixed water/second bottoms fraction into a desulfurized product stream and an aqueous spent alkali metal salt stream;wherein the desulfurized product stream has a lower sulfur content by wt % than the hydrocarbon feedstream, and the desulfurized product stream has a API gravity of at least 20 and a viscosity of less than or equal to 40 centistokes at 40° C., andthe alkali metal salt reagent solution comprises K2 S, KHS, KOH, or a mixture thereof and at least a portion of the aqueous spent alkali metal salt stream comprises K2 S, KHS, KNaS, or a mixture thereof which is sent to the alkali metal salt regeneration process wherein at least a portion of the K2 S, KHS, or KNaS in the mixture is converted to KOH. 2. The process of claim 1, wherein the mixing in step a) comprises mixing the streams sufficiently to produce a dispersed aqueous phase, a majority of a volume of the dispersed aqueous phase being in the form of droplets having a size of about 1 mm or less. 3. The process of claim 1, wherein mixing the hydrocarbon feedstream with the aqueous alkali metal salt reagent solution comprises mixing the streams sufficiently to produce a dispersed aqueous phase, a majority of a volume of the dispersed aqueous phase being in the form of droplets having a size of about 1 mm or less. 4. The process of claim 1, wherein the first effective desulfurization conditions are from about 50 to about 3000 psi (345 to 20,684 kPa), and from about 600° F. to about 900° F. (316° C. to 482° C.). 5. The process of claim 1, wherein the first low-boiling point fraction is comprised of a first naphtha fraction, wherein the first naphtha fraction has a T5 boiling point greater than 25° C. (77° F.) and a T95 boiling point less than 235° C. (455° F.); and wherein at least a portion of this first naphtha fraction is exposed to hydrotreating conditions thereby saturating at least 40% of the olefins in the first naphtha fraction to form a first hydrotreated naphtha stream. 6. The process of claim 5, wherein the second low-boiling point fraction is comprised of a second naphtha fraction, wherein the second naphtha fraction has a T5 boiling point greater than 25° C. (77° F.) and a T95 boiling point less than 235° C. (455° F.); and wherein at least a portion of this second naphtha fraction is exposed to hydrotreating conditions thereby saturating at least 40% of the olefins in the second naphtha fraction to form a second hydrotreated naphtha stream. 7. The process of claim 6, wherein at least a portion of the first naphtha fraction and at least a portion of the second naphtha fraction are combined to form a mixed naphtha fraction prior to being exposed to the hydrotreating conditions thereby saturating at least 40% of the olefins in the mixed naphtha fraction to form a mixed hydrotreated naphtha stream. 8. The process of claim 1, wherein at least a portion of the hydrocarbon feedstream that was not mixed with the aqueous alkali metal salt reagent solution in step a) is combined with the mixed reagent stream before exposing the combined stream to first effective desulfurization conditions in step d). 9. The process of claim 5, wherein at least a portion of the first hydrotreated naphtha stream is combined with the desulfurized product stream. 10. The process of claim 6, wherein at least a portion of the second hydrotreated naphtha stream is combined with the desulfurized product stream. 11. The process of claim 7, wherein at least a portion of the mixed hydrotreated naphtha stream is combined with the desulfurized product stream. 12. The process of claim 1, wherein a hydrogen-containing stream, comprised of at least 75 mol % hydrogen is added to the mixed reagent feedstream before exposing the mixture to the first effective desulfurization conditions in step d). 13. The process of claim 1, wherein the alkali metal salt regeneration process utilizes CaO to convert at least a portion of the K2 S, KHS, or KNaS in the mixture to KOH. 14. The process of claim 1, wherein the amount of alkali metal salt (on an alkali metal molar basis) in the aqueous alkali metal salt reagent solution is at least 1.2 times the amount of sulfur (on a sulfur molar basis) of the hydrocarbon feedstream. 15. The process of claim 1, wherein the hydrocarbon feedstream is a heavy oil feedstream having a sulfur content of at least about 3 wt %.
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