公开(公告)号：EP3116826B1

公开(公告)日：2018-07-04

申请号：EP15708833.7

申请日：2015-03-11

Applicant: BASF SE

Inventor： SCHUNK, Stephan A. ,  SCHWAB, Ekkehard ,  MILANOV, Andrian ,  WASSERSCHAFF, Guido ,  ROUSSIERE, Thomas ,  STRASSER, Andreas ,  LIZANDARA, Carlos ,  MÜLLER, Robert

IPC: C01B3/40 ,  B01J23/00 ,  B01J21/02

CPC classification number: B01J23/83 ,  B01J21/04 ,  B01J23/002 ,  B01J23/89 ,  B01J23/894 ,  B01J35/1009 ,  C01B3/40 ,  C01B2203/0233 ,  C01B2203/0238 ,  C01B2203/0244 ,  C01B2203/0261 ,  C01B2203/062 ,  C01B2203/1047 ,  C01B2203/1052 ,  C01B2203/1058 ,  C01B2203/1076 ,  C01B2203/1235 ,  C01B2203/1241 ,  C10G2/50 ,  Y02P20/52

公开(公告)号：EP4305011A1

公开(公告)日：2024-01-17

申请号：EP22707780.7

申请日：2022-03-01

Applicant: BASF SE

Inventor： WAGNER, Hans-Guenter ,  THOTLA, Suman ,  HUGO, Randolf ,  WATERS, Gerrit ,  HUEBNER, Michael ,  NEUDERT, Markus ,  ROUSSIERE, Thomas

IPC: C07C7/148 ,  C07C11/09 ,  C07C7/04 ,  C07C41/06 ,  C07C41/42 ,  C07C43/04

公开(公告)号：EP4305010A1

公开(公告)日：2024-01-17

申请号：EP22707782.3

申请日：2022-03-01

Applicant: BASF SE

Inventor： WAGNER, Hans-Guenter ,  HUGO, Randolf ,  ROUSSIERE, Thomas ,  THOTLA, Suman ,  WATERS, Gerrit ,  HUEBNER, Michael ,  NEUDERT, Markus

IPC: C07C1/20 ,  C07C7/04 ,  C07C11/02 ,  C07C11/09 ,  C07C29/10 ,  C07C29/80 ,  C07C31/12 ,  C07C41/06 ,  C07C41/58 ,  C07C43/04

公开(公告)号：EP3116826A1

公开(公告)日：2017-01-18

申请号：EP15708833.7

申请日：2015-03-11

Applicant: BASF SE

Inventor： SCHUNK, Stephan A. ,  SCHWAB, Ekkehard ,  MILANOV, Andrian ,  WASSERSCHAFF, Guido ,  ROUSSIERE, Thomas ,  STRASSER, Andreas ,  LIZANDARA, Carlos ,  MÜLLER, Robert

IPC: C01B3/40 ,  B01J23/00 ,  B01J21/02

CPC classification number: B01J23/83 ,  B01J21/04 ,  B01J23/002 ,  B01J23/89 ,  B01J23/894 ,  B01J35/1009 ,  C01B3/40 ,  C01B2203/0233 ,  C01B2203/0238 ,  C01B2203/0244 ,  C01B2203/0261 ,  C01B2203/062 ,  C01B2203/1047 ,  C01B2203/1052 ,  C01B2203/1058 ,  C01B2203/1076 ,  C01B2203/1235 ,  C01B2203/1241 ,  C10G2/50 ,  Y02P20/52

Abstract: The invention relates to a method for producing a catalyst for the high-temperature methods (i) carbon dioxide hydration, (ii) combined high-temperature carbon dioxide, and reforming and/or (iii) reforming of compounds containing hydrocarbons and/or carbon dioxide and to the use of the catalyst according to the invention in connection with the reforming and/or hydration of hydrocarbons, preferably methane, and/or carbon dioxide. For production of the catalyst a source of aluminium, which preferably comprises a water-soluble source of precursor, is brought into contact with an yttrium-containing metal salt solution, is dried, and calcined. The metal salt solution has, in addition to the yttrium species, at least one element from the group comprising cobalt, copper, nickel, iron, and zinc.

Abstract translation: 本发明涉及一种用于制造用于高温方法（ⅰ）二氧化碳氢化的催化剂，（ⅱ）组合的高温二氧化碳加氢和重整和/或（iii）含烃的化合物的重整和/或 二氧化碳和烃，优选甲烷的重整和/或氢化的使用本发明的催化剂的，和/或二氧化碳。 为了生产上的铝源，其优选包含一种水溶性前体源的催化剂，使其与在包含钇金属盐溶液，干燥和煅烧接触。 金属盐溶液包含，锌除了钇种，选自钴，铜，镍，铁和至少一种元素。

公开(公告)号：EP4522582A1

公开(公告)日：2025-03-19

申请号：EP23726019.5

申请日：2023-05-10

Applicant: BASF SE

Inventor： WAGNER, Hans-Guenter ,  THOTLA, Suman ,  HUGO, Randolf ,  ROUSSIERE, Thomas ,  WATERS, Gerrit ,  HUEBNER, Michael ,  NEUDERT, Markus

IPC: C07C7/10 ,  C07C7/148 ,  C07C11/08 ,  C07C1/20 ,  C07C11/09 ,  C07C41/06 ,  C07C41/42 ,  C07C43/04 ,  C07C29/10 ,  C07C31/12

公开(公告)号：EP4056548A1

公开(公告)日：2022-09-14

申请号：EP21161187.6

申请日：2021-03-08

Applicant: BASF SE

Inventor： WAGNER, Hans-Guenter ,  THOTLA, Suman ,  WATERS, Gerrit ,  HUEBNER,Michael ,  NEUDERT, Markus ,  HUGO, Randolf ,  ROUSSIERE, Thomas

IPC: C07C7/148 ,  C07C11/09 ,  C07C7/04 ,  C07C41/06 ,  C07C41/42 ,  C07C43/04

Abstract: A plant for removing isobutene from an isobutene-containing C4-hydrocarbon mixture comprises an etherification unit containing moist acidic ion exchange resin, a first distillation unit, an ether cleavage unit, and a second distillation unit. A process for starting up the plant comprises: (a) filling the etherification unit with isobutanol; (b) filling the first distillation unit with C4-hydrocarbon and/or isobutanol, and operating the first distillation unit with total reflux; (c) filling the second distillation unit with C4-hydrocarbon and/or isobutanol, and operating the second distillation unit with total reflux; (d) withdrawing a bottom product of the second distillation unit, removing water from the bottom product and directing the bottom product to the etherification unit; (e) directing a discharge of the etherification unit to the first distillation unit; (f) directing a bottom product of the first distillation unit to the second distillation unit while bypassing the ether cleavage unit; (g) after the bottom product of the second distillation unit is essentially free of water, providing a flow of isobutene-containing C4-hydrocarbon mixture into the etherification unit and reacting the isobutene-containing C4-hydrocarbon mixture with isobutanol to form a mixture of IBTBE and unconverted hydrocarbons; (h) directing the mixture of IBTBE, unconverted hydrocarbons and unreacted isobutanol from the etherification unit to the first distillation unit and distilling the mixture to obtain a top product comprising the unconverted hydrocarbons, and a bottom product comprising IBTBE and unreacted isobutanol; (i) after IBTBE in the bottom product of the first distillation unit has reached a predetermined concentration, directing the bottom product of the first distillation unit to the ether cleavage unit to decompose the IBTBE to obtain isobutene and isobutanol; (i) directing the mixture of isobutene and isobutanol produced in step (j) to the second distillation unit and distilling the mixture of isobutene and isobutanol to obtain a top product comprising isobutene, and a bottom product comprising isobutanol and; (k) recycling the bottom product obtained in step (j) at least partially to the etherification unit. The stationary operation of the plant comprises (a) reacting an isobutene-containing C4-hydrocarbon mixture with isobutanol in the presence of an acidic ion exchange resin in an etherification unit to form a mixture of IBTBE and unconverted hydrocarbons; (b) distilling the reaction mixture in a first distillation unit to obtain a top product comprising the unconverted hydrocarbons, and a bottom product comprising IBTBE; (c) feeding the bottom product to a ether cleavage unit to decompose the IBTBE to obtain isobutene and isobutanol; (d) distilling the mixture of isobutene and isobutanol produced in step (c) in a second distillation unit to obtain a top product comprising isobutene, and a bottom product comprising isobutanol; and (e) recycling the bottom product of step (d) to step (a). A shutting down process comprises aa) taking the ether cleavage unit out of service and purging the ether cleavage unit with an inert gas; while the etherification unit, the first distillation unit and the second distillation unit stay in operation; bb) stopping the flow of isobutene-containing C4-hydrocarbon mixture into the etherification unit; cc) taking the etherification unit out of service; dd) operating the first distillation unit and the second distillation unit in total reflux mode; and ee) stopping the first distillation unit and the second distillation unit.