Catalyst for selective hydrogenation of dienes, preparation method and application thereof
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B01J-021/02
B01J-021/04
B01J-021/12
B01J-021/06
B01J-023/00
B01J-023/06
B01J-023/24
B01J-023/75
B01J-023/755
B01J-023/80
B01J-023/85
B01J-023/888
B01J-035/00
B01J-035/02
B01J-035/10
B01J-037/00
B01J-037/02
B01J-037/03
B01J-037/20
C07C-007/163
B01J-029/04
C10G-045/38
출원번호
US-0419433
(2012-11-23)
등록번호
US-9669392
(2017-06-06)
우선권정보
CN-2012 1 0315165 (2012-08-30)
국제출원번호
PCT/CN2012/085114
(2012-11-23)
국제공개번호
WO2014/032366
(2014-03-06)
발명자
/ 주소
Li, Can
Jiang, Zongxuan
Chen, Yandie
Liu, Tiefeng
출원인 / 주소
DALIAN INSTITUTE OF CHEMICAL PHYSICS, CHINESE ACADEMY OF SCIENCES
대리인 / 주소
Hong, Enshan
인용정보
피인용 횟수 :
0인용 특허 :
19
초록▼
A mixed metal oxide catalyst for selective hydrogenation of dienes comprising a Group VIII metal, a trivalent metal, a Group IA metal, a Group IVB metal, a Group IIB metal, two Group VIB metals and SiO2—Al2O3 as balance. The catalyst comprises 10-40 wt % of Group VIII metal, 5-30 wt % of trivalent m
A mixed metal oxide catalyst for selective hydrogenation of dienes comprising a Group VIII metal, a trivalent metal, a Group IA metal, a Group IVB metal, a Group IIB metal, two Group VIB metals and SiO2—Al2O3 as balance. The catalyst comprises 10-40 wt % of Group VIII metal, 5-30 wt % of trivalent metal, 0.1-8 wt % of Group IA metal, 0.1-8 wt % of Group IVB metal, 0.1-30 wt % of Group IIB metal, 5-50 wt % of two Group VIB metals and 10-30 wt % of SiO2—Al2O3, based on the catalyst in terms of oxide, and has 150-300 m2/g of specific surface area, 0.4-0.8 ml/g of pore volume.
대표청구항▼
1. A catalyst for selective hydrogenation of dienes comprising a trivalent metal oxide, a Group IA metal oxide, a Group IIB metal oxide, a Group IVB metal oxide, a Group VIII metal oxide, at least two Group VIB metal oxides and an amount of SiO2—Al2O3, wherein: SiO2 is about 90-99 wt % in the SiO2—A
1. A catalyst for selective hydrogenation of dienes comprising a trivalent metal oxide, a Group IA metal oxide, a Group IIB metal oxide, a Group IVB metal oxide, a Group VIII metal oxide, at least two Group VIB metal oxides and an amount of SiO2—Al2O3, wherein: SiO2 is about 90-99 wt % in the SiO2—Al2O3;said catalyst comprises 10-40 wt % of Group VIII oxide(s), 5-30 wt % of trivalent oxide(s), 0.1-8 wt % of Group IA metal oxide(s), 0.1-8 wt % of Group IVB metal oxide(s), 0.1-30 wt % of Group BB metal oxide(s), 5-50 wt % of Group VIB metal oxides, and 10-30 wt % of SiO2—Al2O3;the molar ratio of the two Group VIB metal oxides is in the range of from 3:1 to 1:3;the surface area of the catalyst is 150-300 m2/g; andthe pore volume of the catalyst is 0.4-0.8 ml/g. 2. The catalyst of claim 1, wherein the trivalent metal oxide is Cr oxide or Al oxide; the Group IA metal oxide is Na oxide or K oxide; the Group IVB metal oxide is Ti oxide or Zr oxide; the Group IIB metal oxide is Zn oxide; the Group VIII metal oxide is nickel oxide or cobalt oxide, and the two Group VIB metal oxides are molybdenum oxide and tungsten oxide. 3. The catalyst of claim 1, wherein the two Group VIB metal oxides are Mo oxide and W oxide, the Group BB metal oxide is Zn oxide, the Group IA metal oxide is K oxide, the Group IVB metal oxide is Ti oxide, the Group VIII metal oxide is Ni oxide, and the trivalent metal oxide is Al oxide. 4. A method of preparation of the catalyst of claim 1, comprising the following steps: a) mixing a Group VIII metal soluble salt, a Group IIB metal soluble salt and a trivalent metal soluble salt, and then dissolving in water, adding aqueous solution of basic precipitant containing a Group IA metal to the mixed solution containing the above soluble salts to form a catalyst precipitate, then a layered double hydroxide catalyst precursor was obtained;b) combining the slurry of said layered double hydroxide catalyst precursor and a polar solvent containing at least two Group VIB metals soluble salts together for ion-exchanged reaction, filtering the catalyst precursor, washing, drying and calcining catalyst precursor at 400-500° C. for 2-10 h, and a mixture of metal oxides comprising the Group VIII metal oxide, the trivalent metal oxide, the Group IA metal oxide, the Group IIB metal oxide, and the at least two Group VIB metal oxides is obtained;c) grinding the mixture of the metal oxides of step b) into powder with a size at least lager than 100 mesh, mixing the powder with a binder containing Group IVB metal oxides and a mixture of SiO2 and/or Al2O3 together for kneading, and extrusion molding; drying and calcinations at 400-500° C. for 2-10 h to obtain the catalyst of claim 1. 5. The method of claim 4, wherein the concentration of solution of the Group VIII metal soluble salt lies in the range of from 0.01 to 0.3 M, the concentration of solution of the trivalent metal soluble salt lies in the range of from 0.01 to 0.3 M, the concentration of solution of the Group IIB metal soluble salt lies in the range of from 0.01 to 0.3 M, the concentration of aqueous solution of basic precipitant containing of the Group IA metal soluble salt lies in the range of from 0.1 to 1.5 M, the concentration of the layered double hydroxide catalyst precursor is in the range of from 0.01 to 0.9 M, and the concentration of the at least two Group VIB metal soluble salts dissolved in the polar solvent is in the range of from 0.01 to 0.2 M. 6. The method of claim 4, wherein the precipitation reaction temperature in step a) is in the range of from 50 to 150° C. for 10 to 25 h; the ion-exchanged reaction temperature in step b) is in the range of from 50 to 150° C. for 4 to 10 h; the pH of ion-exchanged reaction system in step b) is in the range of from 1 to 11. 7. The method of claim 4, wherein said basic precipitant in step a) is selected from the group consisting of sodium hydroxide, potassium hydroxide, sodium carbonate, potassium carbonate, and mixtures of any two or more thereof. 8. The method of claim 4, wherein the Group VIII metal soluble salt is selected from the group consisting of nickel nitrate, nickel acetate, nickel sulfate, and nickel chloride; said trivalent metal soluble salt is selected from the group consisting of aluminium nitrate, aluminium acetate, aluminium chloride, chromium nitrate, chromium acetate, chromium chloride, cobalt nitrate, and cobalt chloride; said mixture of the at least two Group VIB metal soluble salts comprise one selected from the group consisting of ammonium molybdate and sodium molybdate and the other selected from the group consisting of ammonium tungstate, ammonium meta-tungstate, and sodium tungstate. 9. A method of removing a diolefin comprising conducting a selective hydrogenation of diolefin reaction in the presence of the catalyst of claim 1. 10. The method of claim 9, wherein the selective hydrogenation of diolefin reaction] is carried out at a temperature in the range of from 30 to 220° C., a hydrogen partial pressure in the range of from 0.1 to 10 MPa, a H2/oil ratio in the range of from 10 to 300 Nm3/m3, and a liquid hourly space velocity in the range of from 0.1 to 10 h−1. 11. The method of claim 9 further comprising pretreating the catalyst before conducting the selective hydrogenation of diolefin reaction as follows: a) calcining under air atmosphere at temperature from 350 to 550° C.;b) grinding, kneading, and extrusion molding;c) in a fixed-bed reactor, carrying out sulfidation in-situ using a mixture of a sulfur containing material and hydrogen at temperature in the range of from 250 to 400° C.;the sulfur containing material is selected from the group consisting of hydrogen sulfide, carbon disulfide, dimethyl disulfide, and combinations thereof, and the volume content of the sulfur containing material is 1-15% in the mixture of the sulfur containing material and hydrogen. 12. The method of claim 9, wherein the diolefin is a mixture of C4-C8 conjugated dienes. 13. The method of claim 9 wherein the diolefin is present in a gasoline.
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