Process for reducing the acidity of hydrocarbon mixtures
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H05B-006/64
C10G-017/00
출원번호
UP-0516646
(2006-09-07)
등록번호
US-7514657
(2009-07-01)
우선권정보
BR-0503793(2005-09-15)
발명자
/ 주소
Moreira, Elizabeth Marques
Cardoso, Mauri Jose Baldini
출원인 / 주소
Petroleo Brasiliero S.A Petrobras
대리인 / 주소
Nixon & Vanderhye PC
인용정보
피인용 횟수 :
4인용 특허 :
19
초록▼
A process to reduce acidity of hydrocarbon mixtures (1) is described, that includes sending a hydrocarbon stream to a Microwave Treatment Unit (MTU), with a fixed stream or mud bed of microwave absorbent materials, pure or in mixtures, such as coke fines, spent catalysts that have already been used
A process to reduce acidity of hydrocarbon mixtures (1) is described, that includes sending a hydrocarbon stream to a Microwave Treatment Unit (MTU), with a fixed stream or mud bed of microwave absorbent materials, pure or in mixtures, such as coke fines, spent catalysts that have already been used in FCC units or hydrotreatment (HDT) in a refinery, or even new catalysts which may be sulfided or not, under processing conditions.
대표청구항▼
The invention claimed is: 1. Process for reducing the acidity of a hydrocarbon mixture with a high acid value, comprising: a) heating said hydrocarbon mixture at temperatures of between 120° C. and 450° C, b) directing the heated mixture to a Microwave Treatment Unit (MTU) equipped with a microwave
The invention claimed is: 1. Process for reducing the acidity of a hydrocarbon mixture with a high acid value, comprising: a) heating said hydrocarbon mixture at temperatures of between 120° C. and 450° C, b) directing the heated mixture to a Microwave Treatment Unit (MTU) equipped with a microwave oven, inside which said mixture enters into continuous contact with a fixed stream or mud bed, made up of a microwave absorbent material, under the action of microwave energy in the range of between 1 mm to 30 cm or 1 to 30 GHz, at a temperature of between 260° C. and 450° C., in order to effect an organic acid reaction in said hydrocarbon mixture with a surface made from said microwave absorbent material, under irradiation of microwaves inside said oven; c) continuously removing from said oven, the effluent from the Microwave Treatment Unit (MTU), having a reduced TAN value, for later processing in refining units of a refining system, so that: i) after the irradiation treatment, the treated hydrocarbon mixture will be at a normal pressure of the refining system; and ii) the spatial velocity of the treated hydrocarbon mixture falls in a range of between 0.25 and 10 h-1; and d) disposing of the microwave absorbent material at the end of the campaign time. 2. Process according to claim 1, wherein said process is applied to a crude oil refining process which comprises the following steps: a) heating the crude oil in a heat exchanger, thus obtaining a heated crude oil; b) desalting the heated crude oil in a desalinator, thus obtaining a desalted crude oil; c) separating light fractions from the desalted crude oil in a preflash tower, thus obtaining a treated oil; and d) distilling the treated oil from the preceding step in an atmospheric distillation tower and in a vacuum distillation tower. 3. Process according to claim 1, wherein the effluent from the Microwave Treatment Unit (MTU), or a fraction of the same, is selectively sent to a battery of heat exchangers to carry out thermal exchange. 4. Process according to claim 2, including heating hydrocarbon mixtures to be treated to temperatures that vary within a range of between 1 20° C. and 450° C. after a desalting step in a desalinator and before the preflash tower. 5. Process according to claim 2, characterized by being fully implemented after the preflash tower for removal of the light products. 6. Process according to claim 2, wherein the hydrocarbon mixture to be treated in the Microwave Treatment Unit (MTU) is a stream of desalted oil proceeding from a desalinator. 7. Process according to claim 2, including heating the hydrocarbon mixture with a high acid value to temperatures that vary within a range of between 120° C. and 450° C., before the desalinator. 8. Process according to claim 7, wherein a fraction of the desalinated stream, exchanges heat in a heat exchanger and leaves the heat exchanger as a fraction stream added to said desalinated stream. 9. Process according to claim 2, characterized by being totally implemented after the desalinator and before the preflash tower. 10. Process according to claim 1, characterized by including a hydrocarbon mixture to be treated while still a brackish petroleum stream, that after exchanging heat in a heat exchanger, produces a stream sent to the Microwave Treatment Unit (MTU), from where it leaves as an effluent stream that is, in part, sent directly to a desalinator, while the other fraction is sent to a battery of heat exchangers (5) from which it leaves as a cooled stream to be mixed into a portion of the effluent stream of the Microwave Treatment Unit (MTU) and sent to the desalinator. 11. Process according to claim 10, wherein it is completely implemented before going through the desalinator. 12. Process according to claim 1, wherein the hydrocarbon mixtures are selected from: petroleum products, their fractions and derivatives. 13. Process according to claim 1, characterized by including hydrocarbon mixtures that present a total acidity number (TAN) that falls within a range of between 1 and 10 mg KOH/g of oil, preferably between 1.5 and 8 mg KOH/g of oil. 14. Process according to claim 1, wherein it also includes hydrogen in order to enhance its effects. 15. Process according to claim 1, wherein the microwave absorbent materials include coke fines, catalyst refuse from FCC or hydrotreatment units made up of transition supported by refractory oxides selected from among alumina, silica, titanium, zirconium; and refractory oxides, be they pure or mixed together in any proportion. 16. Process according to claim 15, wherein the microwave absorbent material is a spent catalyst used in a hydrotreatment process (HDT). 17. Process according to claim 15, wherein the microwave absorbent material is a spent catalyst used in a hydrotreatment process (HDT), sulfided or not. 18. Process according to claim 1, wherein the mass relation of the material that absorbs microwaves/hydrocarbon mixtures is between 0.05 and 1. 19. Process according to claim 16, characterized by possessing an intermediate step to rectify the spent catalyst in the presence of an inert gas. 20. Process according to claim 2, wherein it includes heating to temperatures that vary within a range of between 260° C. and 450° C., of hydrocarbon mixtures to be treated after the preflash tower. 21. Process according to claim 1, wherein it includes heating hydrocarbon mixtures to be treated to temperatures that vary within a range of between 160° C. and 450° C. before a finishing unit, fluid catalytic cracking, or hydrotreatment (HDT). 22. Process according to claim 1, wherein it is fully implemented for the treatment of specific flows such as, diesel oil, light recycled oil, (LCO), aviation kerosene, vacuum gas oils, and coke gas oils. 23. Process according to claim 1, characterized as including a process of additional heating in thermal exchange systems, of non-treated hydrocarbon mixtures with a treated hydrocarbon mixture, so as to reduce the temperature of the treated hydrocarbon mixture before they enter a desalinator. 24. Process according to claim 1, wherein within the microwave oven, the necessary temperature reaction to the treatment is such that it is as close as possible to the temperature of the downstream process. 25. Process according to claim 1, wherein said microwave oven (MTU), is either a conventional oven or not, is commercial or not, one mode or multi-mode, pulse or continuous, with fixed or variable microwave power and frequency.
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이 특허에 인용된 특허 (19)
Trachte Kenneth L. ; Angelo Jacob B. ; Aldous Keith K., Catalytic reduction of acidity of crude oils in the absence of hydrogen.
Wolf Nicholas O. (Ponca City OK) Hudgins Roger L. (Ponca City OK) Seidner David S. (Ponca City OK), Microwave emulsion treater with internal coalescer.
Gorbaty Martin L. ; Martella David J. ; Sartori Guido ; Savage David William ; Ballinger Bruce Henry ; Blum Saul Charles ; Anderson Michael Paul ; Ramanarayanan Trikur Anantharaman, Process for neutralization of petroleum acids using overbased detergents.
Sartori Guido ; Savage David William ; Olmstead William Neergaard ; Robbins Winston Karl ; Dalrymple David Craig ; Ballinger Bruce Henry, Process for treatment of petroleum acids with ammonia.
Ohsol Ernest O. ; Gillespie Thomas E. ; Pinkerton John W., Process to upgrade crude oils by destruction of naphthenic acids, removal of sulfur and removal of salts.
Poirier Marc-Andre,CAX, Sulfur removal from hydrocarbon fluids by mixing with organo mercaptan and contacting with hydrotalcite-like materials, alumina, bayerite or brucite.
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