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公开(公告)号:US20230330646A1
公开(公告)日:2023-10-19
申请号:US18303034
申请日:2023-04-19
Inventor: Takao MASUDA , Yuta NAKASAKA , Takuya YOSHIKAWA , Sadahiro KATO , Masayuki FUKUSHIMA , Kojiro INAMORI , Hiroko TAKAHASHI , Yuichiro BANBA , Kaori SEKINE
IPC: B01J29/14 , B01J29/46 , B01J29/68 , B01J29/76 , B01J35/00 , B01J37/00 , B01J37/02 , B01J37/10 , B01J37/18 , B01J29/064 , B01J29/035 , B01J29/068 , B01J29/076 , B01J29/22 , B01J29/16 , B01J29/18 , B01J29/072 , B01J29/08 , B01J29/20 , B01J29/10 , B01J29/12 , B01J29/62 , B01J29/48 , B01J29/60 , B01J29/44 , B01J29/24 , B01J29/61 , B01J29/26 , B01J29/42 , B01J29/40 , B01J29/69 , B01J29/63 , B01J29/70 , B01J29/65 , B01J29/67 , B01J29/66 , B01J29/64 , B01J29/74 , B01J29/78 , B01J29/72 , B01J35/02 , F01N3/28 , C01B39/02 , B01D53/94
CPC classification number: B01J29/14 , B01D53/94 , B01D53/9409 , B01D53/9413 , B01J29/035 , B01J29/0352 , B01J29/0354 , B01J29/0356 , B01J29/0358 , B01J29/064 , B01J29/068 , B01J29/072 , B01J29/076 , B01J29/085 , B01J29/10 , B01J29/12 , B01J29/16 , B01J29/185 , B01J29/20 , B01J29/22 , B01J29/24 , B01J29/26 , B01J29/40 , B01J29/405 , B01J29/42 , B01J29/44 , B01J29/46 , B01J29/48 , B01J29/605 , B01J29/61 , B01J29/62 , B01J29/63 , B01J29/64 , B01J29/655 , B01J29/66 , B01J29/67 , B01J29/68 , B01J29/69 , B01J29/7007 , B01J29/7038 , B01J29/7049 , B01J29/7057 , B01J29/7088 , B01J29/7215 , B01J29/7276 , B01J29/7415 , B01J29/7476 , B01J29/76 , B01J29/7615 , B01J29/7669 , B01J29/7676 , B01J29/7815 , B01J29/7876 , B01J35/0006 , B01J35/0013 , B01J35/0046 , B01J35/006 , B01J35/0066 , B01J35/0073 , B01J35/023 , B01J35/026 , B01J37/0018 , B01J37/0072 , B01J37/0201 , B01J37/0203 , B01J37/0205 , B01J37/0207 , B01J37/0211 , B01J37/0236 , B01J37/10 , B01J37/105 , B01J37/18 , C01B39/02 , F01N3/2828 , B01D2255/2042 , B01D2255/2063 , B01D2255/2073 , B01D2255/2092 , B01D2255/402 , B01D2255/9155 , B01J2229/126 , B01J2229/14 , B01J2229/186 , B01J2229/20 , B01J2229/22 , B01J2229/32 , B01J2229/34 , B01J2229/38 , B01J2229/40 , C10G2300/70 , F01N2330/06 , F01N2370/04 , F01N2510/063
Abstract: A method for making a functional structural body includes a skeletal body of a porous structure composed of a zeolite-type compound, and at least one type of metallic nanoparticles present in the skeletal body, the skeletal body having channels connecting with each other, the metallic nanoparticles being present at least in the channels of the skeletal body.
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2.发明公开公开(公告)号:US20230294083A1
公开(公告)日:2023-09-21
申请号:US18020188
申请日:2021-08-18
Applicant: BASF CORPORATION
Inventor: Wathudura Indika Namal DE SILVA , David M. STOCKWELL , Gary M. SMITH , Vasileios KOMVOKIS , Bilge YILMAZ
IPC: B01J29/80 , B01J29/70 , B01J29/40 , B01J29/08 , B01J21/04 , B01J21/12 , B01J27/16 , B01J21/16 , B01J35/10 , B01J37/04 , B01J37/00 , C10G11/05
CPC classification number: B01J29/80 , B01J29/7057 , B01J29/405 , B01J29/088 , B01J21/04 , B01J21/12 , B01J27/16 , B01J21/16 , B01J35/1014 , B01J35/1019 , B01J37/04 , B01J37/0018 , C10G11/05 , B01J2029/062
Abstract: Disclosed herein is a fluid catalyst cracking (FCC) catalyst composition that includes a first component and a second component. The first component includes zeolite Y and a first matrix that includes a metal passivating constituent. The second component includes beta zeolite and a second matrix. Also disclosed herein are methods of preparing the FCC catalyst composition and method of using the FCC catalyst composition.
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公开(公告)号:US11701615B2
公开(公告)日:2023-07-18
申请号:US17510440
申请日:2021-10-26
Applicant: Cataler Corporation
Inventor: Shu Miyasaka , Eriko Tanaka , Norihiko Aono , Mai Huong Tran , Keigo Hori , Daisuke Sugioka
IPC: B01J29/06 , B01D53/86 , B01D53/94 , B01J29/072 , B01J23/83 , B01J29/78 , B01J29/76 , B01J29/076 , B01J23/10 , B01J29/70 , B01J23/847 , B01J23/72 , B01J23/745 , B01J29/85 , B01J35/02 , B01J37/02 , B01J35/00 , B01J37/30 , B01J37/00 , B01D53/56 , B01D53/92 , B01J23/63 , F01N3/28 , F01N3/20
CPC classification number: B01D53/86 , B01D53/56 , B01D53/565 , B01D53/8628 , B01D53/8631 , B01D53/92 , B01D53/945 , B01D53/9413 , B01D53/9418 , B01J23/10 , B01J23/72 , B01J23/745 , B01J23/83 , B01J23/8472 , B01J29/061 , B01J29/072 , B01J29/076 , B01J29/7053 , B01J29/7057 , B01J29/7065 , B01J29/76 , B01J29/763 , B01J29/7607 , B01J29/7615 , B01J29/78 , B01J29/783 , B01J29/7807 , B01J29/7815 , B01J29/85 , B01J35/006 , B01J35/008 , B01J35/023 , B01J37/0009 , B01J37/0201 , B01J37/0215 , B01J37/0234 , B01J37/0246 , B01J37/30 , B01D2255/206 , B01D2255/2063 , B01D2255/20723 , B01D2255/20738 , B01D2255/20761 , B01D2255/50 , B01D2255/502 , B01J23/63 , B01J37/0244 , B01J2229/18 , B01J2229/186 , B01J2229/20 , B01J2229/42 , F01N3/2066 , F01N3/2803 , F01N2370/04 , F01N2510/063 , F01N2510/0684 , Y02A50/20 , Y02T10/12
Abstract: This exhaust gas purifying catalyst is provided with a substrate and a catalyst layer formed on a surface of the substrate. The catalyst layer contains zeolite particles that support a metal, and a rare earth element-containing compound that contains a rare earth element. The rare earth element-containing compound is added in such an amount that the molar ratio of the rare earth element relative to Si contained in the zeolite is 0.001 to 0.014 in terms of oxides.
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公开(公告)号:US20230201814A1
公开(公告)日:2023-06-29
申请号:US18171140
申请日:2023-02-17
Inventor: Takao MASUDA , Yuta NAKASAKA , Takuya YOSHIKAWA , Sadahiro KATO , Masayuki FUKUSHIMA , Kojiro INAMORI , Hiroko TAKAHASHI , Yuichiro BANBA , Kaori SEKINE
IPC: B01J29/76 , B01J29/14 , B01J29/68 , B01J35/00 , B01J35/04 , B01J35/10 , B01J37/02 , B01J37/03 , B01J37/10 , B01J29/035 , B01J29/068 , B01J29/064 , B01J29/16 , B01J29/18 , B01J29/076 , B01J29/12 , B01J29/072 , B01J29/10 , B01J29/22 , B01J29/08 , B01J29/20 , B01J29/26 , B01J29/61 , B01J29/24 , B01J29/42 , B01J29/62 , B01J29/60 , B01J29/46 , B01J29/40 , B01J29/48 , B01J29/44 , B01J29/65 , B01J29/64 , B01J29/69 , B01J29/70 , B01J29/67 , B01J29/63 , B01J29/66 , B01J29/72 , B01J29/78 , B01J29/74
CPC classification number: B01J29/7669 , B01J29/14 , B01J29/68 , B01J29/76 , B01J35/0013 , B01J35/04 , B01J35/1057 , B01J35/1061 , B01J37/0203 , B01J37/0236 , B01J37/033 , B01J37/10 , B01J29/035 , B01J29/0358 , B01J29/0352 , B01J29/068 , B01J29/0354 , B01J29/0356 , B01J29/064 , B01J29/16 , B01J29/185 , B01J29/076 , B01J29/12 , B01J29/072 , B01J29/10 , B01J29/22 , B01J29/085 , B01J29/20 , B01J29/26 , B01J29/61 , B01J29/24 , B01J29/42 , B01J29/62 , B01J29/605 , B01J29/46 , B01J29/405 , B01J29/48 , B01J29/44 , B01J29/655 , B01J29/64 , B01J29/69 , B01J29/7057 , B01J29/7007 , B01J29/67 , B01J29/63 , B01J29/66 , B01J29/7276 , B01J29/7676 , B01J29/7038 , B01J29/7876 , B01J29/7815 , B01J29/7415 , B01J29/7088 , B01J29/7215 , B01J29/7476 , B01J29/7615 , B01J2229/22 , B01J2229/40 , B01J2229/38 , C10G2300/70
Abstract: To provide a functional structural body that can realize a long life time by suppressing the decline in function of the functional substance and that can attempt to save resources without requiring a complicated replacement operation, and to provide a method for making the functional structural body. The functional structural body (1) includes a skeletal body (10) of a porous structure composed of a zeolite-type compound, and at least one functional substance (20) present in the skeletal body (10), the skeletal body (10) has channels (11) connecting with each other, and the functional substance is present at least in the channels (11) of the skeletal body (10).
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公开(公告)号:US11684909B2
公开(公告)日:2023-06-27
申请号:US16698527
申请日:2019-11-27
Applicant: FURUKAWA ELECTRIC CO., LTD.
Inventor: Takao Masuda , Yuta Nakasaka , Takuya Yoshikawa , Sadahiro Kato , Masayuki Fukushima , Hiroko Takahashi , Yuichiro Banba , Kaori Sekine
IPC: B01J29/06 , B01J29/04 , B01J35/02 , B01J35/10 , B01J37/02 , B01J37/08 , B01J29/035 , B01J29/03 , B01J29/072 , B01J29/08 , B01J29/14 , B01J29/12 , B01J29/10 , B01J29/064 , B01J29/076 , B01J29/42 , B01J29/20 , B01J29/44 , B01J29/24 , B01J29/16 , B01J29/22 , B01J29/26 , B01J29/18 , B01J29/62 , B01J29/65 , B01J29/48 , B01J29/40 , B01J29/64 , B01J29/46 , B01J29/60 , B01J29/61 , B01J29/63 , B01J29/70 , B01J29/66 , B01J29/67 , B01J29/69 , B01J29/68 , B01J29/76 , B01J29/72 , B01J29/74 , B01J29/78 , B01J23/32 , B01J23/36 , B01J23/06 , B01J23/34 , B01J23/10 , B01J23/16 , B01J23/745
CPC classification number: B01J29/041 , B01J23/06 , B01J23/10 , B01J23/16 , B01J23/32 , B01J23/34 , B01J23/36 , B01J23/745 , B01J29/035 , B01J29/0308 , B01J29/0352 , B01J29/0354 , B01J29/0356 , B01J29/0358 , B01J29/043 , B01J29/044 , B01J29/064 , B01J29/072 , B01J29/076 , B01J29/085 , B01J29/10 , B01J29/12 , B01J29/14 , B01J29/16 , B01J29/185 , B01J29/20 , B01J29/22 , B01J29/24 , B01J29/26 , B01J29/405 , B01J29/42 , B01J29/44 , B01J29/46 , B01J29/48 , B01J29/605 , B01J29/61 , B01J29/62 , B01J29/63 , B01J29/64 , B01J29/65 , B01J29/655 , B01J29/66 , B01J29/67 , B01J29/68 , B01J29/69 , B01J29/70 , B01J29/7007 , B01J29/7038 , B01J29/7057 , B01J29/7088 , B01J29/7215 , B01J29/7276 , B01J29/7415 , B01J29/7476 , B01J29/7676 , B01J29/7815 , B01J29/7876 , B01J35/023 , B01J35/1057 , B01J37/0207 , B01J37/08 , B01J2229/126 , B01J2229/20 , B01J2229/22 , B01J2229/32 , B01J2229/34 , B01J2229/38 , B01J2229/40
Abstract: To provide a highly active structured catalyst for methanol reforming that suppresses the decline in catalytic function and has excellent catalytic function, and a methanol reforming device. A structured catalyst for methanol reforming, including:
a support of a porous structure composed of a zeolite-type compound; and
a catalytic substance present in the support,
in which the support has channels communicating with each other, and
the catalytic substance is present at least in the channels of the support.-
Patent Agency Ranking
6.发明申请公开(公告)号:US20190218158A1
公开(公告)日:2019-07-18
申请号:US16246462
申请日:2019-01-12
Applicant: Exelus Inc.
Inventor: Mitrajit Mukherjee , Vamsi M. Vadhri , Narendra Joshi
IPC: C07C2/86 , C07C2/58 , B01J21/12 , B01J29/08 , B01J29/70 , B01J35/02 , B01J35/10 , C07C5/373 , C10G29/20 , C10G3/00 , B01J29/18 , B01J21/08 , B01J21/04 , B01J29/40 , B01J23/80 , B01J29/89 , C07C1/20 , B01J8/04
CPC classification number: C07C2/864 , B01J8/04 , B01J21/04 , B01J21/08 , B01J21/12 , B01J23/80 , B01J29/08 , B01J29/087 , B01J29/18 , B01J29/40 , B01J29/7007 , B01J29/7057 , B01J29/89 , B01J35/023 , B01J35/1019 , B01J35/1023 , B01J35/1057 , B01J2523/00 , C07C1/20 , C07C2/58 , C07C2/865 , C07C5/373 , C07C2521/04 , C07C2521/06 , C07C2521/08 , C07C2521/12 , C07C2523/755 , C07C2523/80 , C07C2529/08 , C07C2529/18 , C07C2529/40 , C07C2529/89 , C10G3/49 , C10G29/205 , C07C11/02 , C07C11/08 , C07C9/21 , B01J2523/27 , B01J2523/41 , B01J2523/47 , B01J2523/847
Abstract: Methods of simultaneously converting butanes and methanol to olefins over Ti-containing zeolite catalysts are described. The exothermicity of the alcohols to olefins reaction is matched by endothermicity of dehydrogenation reaction of butane(s) to light olefins resulting in a thermo-neutral process. The Ti-containing zeolites provide excellent selectivity to light olefins as well as exceptionally high hydrothermal stability. The coupled reaction may advantageously be conducted in a staged reactor with methanol/DME conversion zones alternating with zones for butane(s) dehydrogenation. The resulting light olefins can then be reacted with iso-butane to produce high-octane alkylate. The net result is a highly efficient and low cost method for converting methanol and butanes to alkylate.
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公开(公告)号:US09803142B1
公开(公告)日:2017-10-31
申请号:US15617026
申请日:2017-06-08
Applicant: Alliance for Sustainable Energy, LLC
Inventor: Jesse Hensley , Daniel A. Ruddy , Joshua A. Schaidle , Mayank Behl
IPC: C10G3/00 , B01J29/70 , C10L1/04 , C01B3/02 , C07C41/01 , B01J29/76 , C10G50/00 , C01B3/22 , C01B3/34 , C07C29/151
CPC classification number: C10G3/49 , B01J29/7057 , B01J29/7615 , C01B3/02 , C01B3/22 , C01B3/34 , C01B2203/02 , C01B2203/0216 , C01B2203/0222 , C01B2203/025 , C01B2203/0266 , C01B2203/0283 , C01B2203/06 , C01B2203/061 , C01B2203/1241 , C07C29/1518 , C07C41/01 , C10G3/50 , C10G50/00 , C10J2300/1665 , C10L1/04 , C10L2200/0492 , C10L2290/02 , C10L2290/04 , C10L2290/42 , Y02P20/52 , Y02P30/20 , C07C31/04 , C07C43/043
Abstract: Catalysts and processes designed to convert DME and/or methanol and hydrogen (H2) to desirable liquid fuels are described. These catalysts produce the fuels efficiently and with a high selectivity and yield, and reduce the formation of aromatic hydrocarbons by incorporating H2 into the products. Also described are process methods to further upgrade these fuels to higher molecular weight liquid fuel mixtures, which have physical properties comparable with current commercially used liquid fuels.
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公开(公告)号:US09796931B1
公开(公告)日:2017-10-24
申请号:US15617074
申请日:2017-06-08
Applicant: Alliance for Sustainable Energy, LLC
Inventor: Jesse Hensley , Daniel A. Ruddy , Joshua A. Schaidle , Mayank Behl
IPC: C10L1/16 , C10L1/04 , C10G3/00 , C01B3/22 , C10G50/00 , C07C41/01 , C07C29/151 , C07C31/04 , C07C43/04 , C01B3/02 , B01J29/70 , B01J29/76 , C01B3/34
CPC classification number: C10G3/49 , B01J29/7057 , B01J29/7615 , C01B3/02 , C01B3/22 , C01B3/34 , C01B2203/02 , C01B2203/0216 , C01B2203/0222 , C01B2203/025 , C01B2203/0266 , C01B2203/0283 , C01B2203/06 , C01B2203/061 , C01B2203/1241 , C07C29/1518 , C07C41/01 , C10G3/50 , C10G50/00 , C10J2300/1665 , C10L1/04 , C10L2200/0492 , C10L2290/02 , C10L2290/04 , C10L2290/42 , Y02P20/52 , Y02P30/20 , C07C31/04 , C07C43/043
Abstract: This disclosure relates to catalysts and processes designed to convert DME and/or methanol and hydrogen (H2) to desirable liquid fuels. These catalysts produce the fuels efficiently and with a high selectivity and yield, and reduce the formation of aromatic hydrocarbons by incorporating H2 into the products. This disclosure also describes process methods to further upgrade these fuels to higher molecular weight liquid fuel mixtures, which have physical properties comparable with current commercially used liquid fuels.
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9.发明申请公开(公告)号:US20170129913A1
公开(公告)日:2017-05-11
申请号:US15319332
申请日:2015-06-18
Applicant: Haldor Topsøe A/S
Inventor: Saravanamurugan Shunmugavel , Irantzu Sandaba Zubiri , Esben Taarning , Martin Spangsberg Holm
IPC: C07H1/00 , B01J29/04 , B01J29/70 , B01J37/00 , B01J37/04 , B01J37/10 , B01J37/02 , C01B39/46 , C01B37/00 , C01B39/02 , C07D307/36 , C07C67/08 , C07C51/16 , C07H3/02 , A23L33/10 , A23L27/30 , B01J29/89
CPC classification number: C07H1/00 , A23L27/34 , A23L33/10 , A23V2002/00 , B01J29/041 , B01J29/405 , B01J29/7049 , B01J29/7057 , B01J29/89 , B01J37/0018 , B01J37/0201 , B01J37/04 , B01J37/10 , B01J2229/186 , B01J2229/37 , C01B37/005 , C01B39/026 , C01B39/085 , C01B39/40 , C01B39/46 , C07C51/16 , C07C67/08 , C07D307/36 , C07H3/02
Abstract: A process for the preparation of C4 oxygenate compounds such as threose, erythrose or erythrulose starting from a composition comprising C1-3 oxygenate compounds such as formaldehyde, glycolaldehyde, glyoxal, pyruvaldehyde or acetol, wherein the process is carried out in the presence of a crystalline microporous material having a ring pore structure selected from an eight-membered ring pore structure or a ten-membered ring pore structure.
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公开(公告)号:US20170072389A1
公开(公告)日:2017-03-16
申请号:US15121903
申请日:2015-02-26
Applicant: Reliance Industries Limited
Inventor: Nagesh Sharma , Ajay Kumar , Anilkumar Mettu , Veera Venkata Satya Bhaskara Sita Rama Murthy Katravulapalli , Kalpana Gopalakrishna , Raksh Vir Jasra
IPC: B01J29/40 , B01J29/08 , B01J29/076 , B01J29/068 , B01J29/072 , B01J29/18 , B01J29/70
CPC classification number: B01J29/068 , B01J29/072 , B01J29/076 , B01J29/084 , B01J29/088 , B01J29/126 , B01J29/146 , B01J29/18 , B01J29/185 , B01J29/22 , B01J29/24 , B01J29/26 , B01J29/40 , B01J29/405 , B01J29/42 , B01J29/44 , B01J29/46 , B01J29/48 , B01J29/7007 , B01J29/7034 , B01J29/7038 , B01J29/7057 , B01J29/7415 , B01J29/7469 , B01J29/7615 , B01J29/7669 , B01J29/7815 , B01J29/7869 , B01J35/0006 , B01J35/023 , B01J37/0215 , B01J37/0236 , B01J37/0242 , B01J37/0246 , B01J37/06 , B01J37/08 , B01J2229/186 , B01J2229/64 , C10G35/09 , C10G35/095
Abstract: The present disclosure relates to a catalyst for a naphtha reforming process. The catalyst comprises a chloride free zeolite coated alumina support impregnated with 0.01 wt % to 0.5 wt % active metal and 0.01 wt % to 0.5 wt % promoter metal, characterized in that the thickness of the zeolite coating on the alumina support ranges from 100 μm to 200 μm.
Abstract translation: 本公开涉及一种用于石脑油重整方法的催化剂。 催化剂包含浸渍有0.01重量%至0.5重量%活性金属和0.01重量%至0.5重量%助催化剂金属的无氯化物沸石涂层氧化铝载体,其特征在于,氧化铝载体上的沸石涂层的厚度范围为100μm至 200μm。
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