IPC분류정보
| 국가/구분 |
United States(US) Patent
등록
|
| 국제특허분류(IPC7판) |
|
| 출원번호 |
US-0572097
(1984-01-19)
|
| 우선권정보 |
JP-0007421 (1983-01-21) |
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발명자
/ 주소 |
- Higashi Hidehiro (Kitakyushu JPX) Shirono Katsuhiro (Kitakyushu JPX) Arima Yuusaku (Fukuoka JPX) Nishimura Yoichi (Yokohama JPX) Yoshida Shinichi (Kashiwa JPX)
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| 출원인 / 주소 |
- Catalysts & Chemicals Industries Co., Ltd. (Tokyo JPX 03)
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| 인용정보 |
피인용 횟수 :
28 인용 특허 :
4 |
초록
▼
A two-stage process for hydrotreating asphaltenes and metallic contaminants-containing heavy hydrocarbon oils which comprises a demetallization step using a catalyst composition which is smaller in pore size and less in active metal amount than the conventional demetallization catalysts, and a hydro
A two-stage process for hydrotreating asphaltenes and metallic contaminants-containing heavy hydrocarbon oils which comprises a demetallization step using a catalyst composition which is smaller in pore size and less in active metal amount than the conventional demetallization catalysts, and a hydrotreating step using a catalyst composition which is larger in pore size and more in active metal amount than the conventional hydrodesulfurization catalysts or hydrocracking catalysts, said hydrotreating step being located downstream of said demetallization step.
대표청구항
▼
A two-stage hydrotreating process for treating a heavy hydrocarbon oil containing asphaltenes and metals, and wherein hard-to-react metals are contained in said asphaltenes, which comprises the steps of: in the first stage, partially demetallizing said heavy hydrocarbon oil by contacting said oil wi
A two-stage hydrotreating process for treating a heavy hydrocarbon oil containing asphaltenes and metals, and wherein hard-to-react metals are contained in said asphaltenes, which comprises the steps of: in the first stage, partially demetallizing said heavy hydrocarbon oil by contacting said oil with hydrogen, under the operating conditions of an average reaction temperature of 375°-440°C., a hydrogen partial pressure of 70-230 Kg/cm2, a hydrogen flow rate of 500-2000 Nm3 (hydrogen)/Kl (hydrocarbon oil) and an LHSV of 0.1-4 hr-1, in the presence of a first catalyst composition consisting essentially of at least two oxides of metals selected from the group consisting of the metals of Group VB and Group VIII of the Periodic Table, at least one of said metal oxides being an oxide of vanadium, which metal oxides are supported on a first carrier consisting essentially of g10 wt % or less based on the weight of said first catalyst composition, said first catalyst composition having a pore structure satisfying the requirements (a), (b) and (c) set forth hereinafter, said first catalyst having a controlled demetallizing activity so that it is effective to remove easily reactive metals and deposit them in the interiors of the particles of said first catalyst, said first catalyst being substantially ineffective to crack said asphaltenes containing hard-to-react metals so that the hard-to-react metals contained in uncracked asphaltenes are not removed; and thereafter, in the second stage, hydrotreating the partially demetallized hydrocarbon oil by contacting said partially demetallized hydrocarbon oil with hydrogen, under the same operating conditions as as defined above, in the presence of a second catalyst composition comprising at least two oxides of metals selected from the group consisting of the metals of Group VIB and Group VIII of the Periodic Table, which metal oxides are supported on a second carrier, said second carrier consisting of g30 wt. % or less based on the weight of said second catalyst composition, the content of said metal oxides in said first catalyst composition being less than the content of said metal oxides in said second catalyst composition, said second catalyst being effective to crack said asphaltenes so that said hard-to-react metals are removed and are deposited in the interiors of the particles of said second catalyst, said second catalyst composition having a pore structure satisfying the following requirements (a), (b) and (c): (a) when measured by the nitrogen adsorption method, pores whose diameters are in the range of 0-600 Åhave an average diameter of 100-180 Å, the total volume occupied by pores whose diameters are in the range of the average diameter ±20 Åis at least 60% of that occupied by pores whose diameters are 0-600 Å, the total volume occupied by pores whose diameters are 50 Åor less is 10% or less of that occupied by pores whose diameters are 0-600 Å, the total volume occupied by pores whose diameters are in the range of 200-300 Åis 5% or less of that occupied by pores whose diameters are 0-600 Å, and the total volume occupied by pores whose diameters are 300 Åor more is 3% or less of that occupied by pores whose diameters are 0-600 Å, (b) when measured by means of a high pressure mercury porosimeter, pores whose diameters are in the range of 62-600 Åhave an average diameter of 100-170 Å, the total volume occupied by pores whose diameters are in the range of average diameter ±20 Åis at least 70% of the volume occupied by pores whose diameters are 62-600 Å, the volume occupied by pores whose diameters are 100 Åor less is 10% or less of that occupied by pores whose diameters are 62-600 Å, and the volume occupied by pores whose diameters are 200 Åor more is 5-15% of that occupied by pores whose diameters are 62-600 Å, (c) and the specific surface area is 170-270 m2/g, and the volume occupied by pores having a diameter of 600 Åor less, is 0.57-0.95 ml/g.
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