Desulfurization of heavy hydrocarbons and conversion of resulting hydrosulfides utilizing copper metal
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
C10G-019/08
C10G-045/04
출원번호
US-0586825
(2009-09-29)
등록번호
US-8398848
(2013-03-19)
발명자
/ 주소
McConnachie, Jonathan M.
Leta, Daniel P
Bielenberg, James R.
Wright, Chris A.
Brown, Leo D.
출원인 / 주소
ExxonMobil Research and Engineering Company
대리인 / 주소
Bordelon, Bruce M.
인용정보
피인용 횟수 :
4인용 특허 :
19
초록▼
The present invention is a process for desulfurizing hydrocarbon feedstreams with alkali metal compounds and regenerating the alkali metal compounds via the use of a copper metal reagent. The present invention employs the use of a copper metal reagent to convert spent alkali metal hydrosulfides in t
The present invention is a process for desulfurizing hydrocarbon feedstreams with alkali metal compounds and regenerating the alkali metal compounds via the use of a copper metal reagent. The present invention employs the use of a copper metal reagent to convert spent alkali metal hydrosulfides in the regeneration of the alkali hydroxide compounds for reutilization in the desulfurization process for the hydrocarbon feedstreams. Additionally, in preferred embodiments of the processes disclosed herein, carbonates which may be detrimental to the overall desulfurization process and related equipment are removed from the regenerated alkali metal stream.
대표청구항▼
1. A process for desuifurizing a sulfur-containing hydrocarbon stream, comprising: a) contacting a sulfur-containing hydrocarbon stream with an API gravity of less than about 40 with an alkali metal hydroxide in a first reaction zone, thereby producing a desulfurized hydrocarbon/spent alkali metal r
1. A process for desuifurizing a sulfur-containing hydrocarbon stream, comprising: a) contacting a sulfur-containing hydrocarbon stream with an API gravity of less than about 40 with an alkali metal hydroxide in a first reaction zone, thereby producing a desulfurized hydrocarbon/spent alkali metal reagent stream;b) conducting the desulfurized hydrocarbon/spent alkali metal reagent stream to a first separation zone, wherein at least a portion of the desulfurized hydrocarbons are separated from the spent alkali metal reagents, thereby producing a desulfurized hydrocarbon product stream;c) conducting at least a portion of the spent alkali metal reagents to a second reaction zone, wherein the spent alkali metal reagents are contacted with a copper metal reagent, and wherein the spent alkali metal reagents are comprised of alkali metal hydrosulfides, and at least a portion of the alkali metal hydrosulfides are converted to regenerated alkali metal hydroxides and at least a portion of the copper metal reagent is converted to copper sulfides, thereby producing a desulfurized alkali metal stream comprised of regenerated alkali metal hydroxides and copper sulfides;d) conducting at least a portion of the desulfurized alkali metal stream to a second separation zone, wherein at least a portion of the copper sulfides are separated from the regenerated alkali metal hydroxides;e) conducting at least a portion of the regenerated alkali metal hydroxides to the first reaction zone as a regenerated alkali metal hydroxide stream;f) conducting at least a portion of the separated copper sulfides to a first regeneration zone, wherein the separated copper sulfides are contacted with a hydrogen-containing stream at a temperature from about 1000 to about 2000° F., thereby converting at least a portion of the separated copper sulfides to regenerated copper metal; andg) conducting at least a portion of the regenerated copper metal to the second reaction zone;wherein the regenerated alkali metal hydroxide stream contains carbonates and at least a portion of the regenerated alkali metal hydroxide stream is subjected to a carbonate removal step prior to returning the regenerated alkali metal hydroxide stream to the first reaction zone; and the carbonate removal step is comprised of contacting the regenerated alkali metal hydroxide stream with an aqueous suspension of calcium oxide and calcium hydroxide. 2. The process of claim 1, wherein the desulfurized hydrocarbon product stream has a sulfur content by weight % that is less than 50% of the sulfur content by weight % of the sulfur-containing heavy hydrocarbon stream. 3. The process of claim 1, wherein the sulfur-containing ydrocarbon stream is a heavy hydrocarbon stream which has an APT gravity of less than about 20 and a sulfur content of at least 1 wt %. 4. The process of claim 1, wherein the copper metal reagent is comprised of copper metals in the zero valent state. 5. The process of claim 1, wherein the alkali metal hydroxide is selected from potassium hydroxide, rubidium hydroxide, cesium hydroxide, and mixtures thereof. 6. The process of claim 1, wherein the reaction conditions in the first reaction zone are from about 50 to about 3000 psi, and from about 600 to about 900° F. 7. The process of claim 1, wherein the reaction conditions in the second reaction zone are from about 15 to about 500 psi, and from about 50 to about 500° F. 8. The process of claim 1. wherein a hydrogen-containing stream comprising at least 50 mol% hydrogen is conducted to the reaction zone. 9. A process for desulfurizing a sulfur-containing hydrocarbon stream, comprising: a) contracting a sulfur-containing hydrocarbon stream with an API gravity of less than about 40 with an alkali metal hydroxide in a first reaction zone, thereby producing a desulfurized hydrocarbon/spent alkali metal reagent stream;b) conducting the desulfurized hydrocarbon/spent alkali metal reagent stream to a first separation zone, wherein at least a portion of the desulfurized hydrocarbons are separated from the spent alkali metal reagents, thereby producing a desulfurized hydrocarbon product stream;c) conducting at least a portion of the spent alkali metal reagents to a second reaction zone comprising at least two reactors, wherein the spent alkali metal reagents are contacted in at least one reactor with a supported copper metal reagent, and wherein the spent alkali metal reagents are comprised of alkali metal hydrosulfides, and at least a portion of the alkali metal hydrosulfides are converted to regenerated alkali metal hydroxides, and at least a portion of the supported copper metal reagents are converted to supported copper sulfides, thereby producing a regenerated alkali metal hydroxide stream comprised of alkali metal hydroxides; andd) conducting at least a portion of the regenerated alkali metal hydroxide stream to the first reaction zone;wherein periodically the flow of spent alkali metal reagents to at least one of the reactors in the second reaction zone is suspended while at least a portion of the supported copper sulfides in the reactor are converted to supported regenerated copper metal by contacting the supported copper sulfides with an hydrogen-containing stream at a regeneration temperature from about 1000 to about 2000° F.; andthe regenerated alkali metal hydroxide stream contains carbonates and at least a portion of the regenerated alkali metal hydroxide stream is subjected to a carbonate removal step prior to returning the regenerated alkali metal hydroxide stream to the first reaction zone; and the carbonate removal step is comprised of contacting the regenerated alkali metal hydroxide stream with an aqueous suspension of calcium oxide and calcium hydroxide. 10. The process of claim 9, wherein the desulfurized hydrocarbon product stream has a sulfur content by weight % that is less than 50% of the sulfur content by weight % of the sulfur-containing heavy hydrocarbon stream. 11. The process of claim 9 wherein the sulfur-containing hydrocarbon stream is a heavy hydrocarbon stream which has an API gravity of less than about 20 and a sulfur content of at least 1 wt %. 12. The process of claim 9, wherein the copper metal reagent is comprised of copper metals in the zero valent state. 13. The process of claim 9, wherein the alkali metal hydroxide is selected from potassium hydroxide, rubidium hydroxide, cesium hydroxide, and mixtures thereof. 14. The process of claim 9, wherein the reaction conditions in the first reaction zone are from about 50 to about 3000 psi, and from about 600 to about 900° F. 15. The process of claim 9, wherein the reaction conditions in the second reaction zone during step c) are about 15 to about 500 psi, and about 50 to about 500° F. 16. The process of claim 9, wherein a hydrogen-containing stream comprising at least 50 mol % hydrogen is conducted to the reaction zone.
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이 특허에 인용된 특허 (19)
Baird ; Jr. William C. (Baton Rouge LA) Bearden ; Jr. Roby (Baton Rouge LA), Combined desulfurization and hydroconversion with alkali metal hydroxides.
Brons Glen B. (Phillipsburg NJ) Myers Ronald (Calgary CAX) Bearden ; Jr. Roby (Baton Rouge LA), Continuous in-situ combination process for upgrading heavy oil.
Weissman Jeffrey G. (Wappinger Falls NY) Ko Edmond I. (Pittsburgh PA), Hydrodesulfurization and hydrodenitrogenation over a transition metal oxide aerogel catalyst.
Dezael Claude (Maisons Laffitte FR) Deschamps Andre (Noisy le Roi FR) Franckowiak Sigismond (Rueil Malmaison FR), Process for removing H2S and CO2from gases and regenerating the adsorbing solution.
Hedblom Mats-Olov (Avesta SEX) Bergstrom Hakan (Avesta SEX) Ulmgren Per (Lidingo SEX), Process for the preparation of sulfide-free alkali liquor using copperoxide.
Olivier Bourbigou,Helene; Uzio,Denis; Magna,Lionel; Diehl,Fabrice, Processing for eliminating sulfur-containing compounds and nitrogen-containing compounds from hydrocarbon.
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