公开(公告)号：WO2015047702A1

公开(公告)日：2015-04-02

申请号：PCT/US2014/054506

申请日：2014-09-08

Applicant: UOP LLC

Inventor： LIU, Chunqing ,  OSMAN, Zara ,  TROXELL, Angela N.

IPC: C08G73/10 ,  C08L79/08 ,  C08J5/22 ,  B01D71/64

CPC classification number: B01D71/64 ,  B01D67/0006 ,  B01D2323/08 ,  B01D2323/30 ,  C08G73/1039 ,  C08G73/1042 ,  C08G73/1067

Abstract: This invention relates to self-cross-linkable and self-cross-linked aromatic polyimide polymers, their membranes and methods for making and using these polymers and membranes. The self-cross-linkable aromatic polyimide polymer described in the present invention comprises both hydroxyl functional groups and carboxylic acid functional groups. The self-cross-linked aromatic polyimide was formed via heating the self-cross-linkable aromatic polyimide polymer at ≤ 300°C. The self-cross-linked aromatic polyimide membranes exhibit high selectivity in separation of mixtures of gases and liquids.

Abstract translation: 本发明涉及自交联和自交联的芳族聚酰亚胺聚合物，它们的膜和制备和使用这些聚合物和膜的方法。 本发明中描述的自交联芳族聚酰亚胺聚合物包含羟基官能团和羧酸官能团。 自交联芳族聚酰亚胺通过在300℃下加热自交联芳香族聚酰亚胺聚合物形成。 自交联芳族聚酰亚胺膜在气体和液体混合物的分离中表现出高选择性。

公开(公告)号：WO2014209701A1

公开(公告)日：2014-12-31

申请号：PCT/US2014/042850

申请日：2014-06-18

Applicant: UOP LLC

Inventor： LIU, Chunqing ,  OSMAN, Zara

IPC: C08G73/10 ,  C08J5/22 ,  B01D71/64 ,  B01D67/00

CPC classification number: C08J3/247 ,  B01D53/228 ,  B01D61/025 ,  B01D61/145 ,  B01D67/0006 ,  B01D67/0088 ,  B01D69/125 ,  B01D71/64 ,  B01D2323/08 ,  B01D2323/30 ,  B01D2325/20 ,  C08J2379/08 ,  Y02C20/20

Abstract: This invention relates to high hydrocarbon resistant chemically cross-linked aromatic polyimide polymers, membranes and methods for making and using these polymers and membranes. The high hydrocarbon resistant chemically cross-linked aromatic polyimide membrane described in the present invention comprises a plurality of repeating units of a first aromatic polyimide comprising hydroxyl groups cross-linked with a second aromatic polyimide comprising carboxylic acid groups via covalent ester bonds. These membranes exhibit high permeability and selectivity in separation of mixtures of gases and liquids.

Abstract translation: 本发明涉及高耐烃化学交联芳族聚酰亚胺聚合物，膜和制造和使用这些聚合物和膜的方法。 本发明描述的高耐烃化学交联芳族聚酰亚胺膜包含多个重复单元，其包含通过共价酯键与包含羧酸基团的第二芳族聚酰亚胺交联的羟基的第一芳族聚酰亚胺。 这些膜在气体和液体混合物的分离中表现出高的渗透性和选择性。

公开(公告)号：WO2014078091A1

公开(公告)日：2014-05-22

申请号：PCT/US2013/067764

申请日：2013-10-31

Applicant: UOP LLC

Inventor： LIU, Chunqing ,  OSMAN, Zara ,  LU, Changqing ,  POSS, Andrew, J. ,  SINGH, Rajiv, R.

IPC: B01D71/32 ,  B01D71/64 ,  B01D71/34 ,  B01D71/56 ,  B01D71/36 ,  B01D71/68 ,  B01D71/10

CPC classification number: B01D53/228 ,  B01D53/22 ,  B01D67/0011 ,  B01D71/32 ,  B01D2256/24 ,  B01D2257/102 ,  B01D2257/104 ,  B01D2257/108 ,  B01D2257/11 ,  B01D2257/304 ,  B01D2257/504 ,  B01D2257/708 ,  B01D2258/0283 ,  C02F1/441 ,  C02F2101/34 ,  C10G5/00 ,  C10G31/00 ,  C10L3/102 ,  C10L3/106 ,  Y02C10/10

Abstract: The present invention generally relates to gas separation membranes and, in particular, to high selectivity fluorinated ethylene-propylene polymer-comprising polymeric blend membranes for gas separations. The polymeric blend membrane comprises a fluorinated ethylene-propylene polymer and a second polymer different from the fluorinated ethylene-propylene polymer. The fluorinated ethylene-propylene polymers in the current invention are copolymers comprising 10 to 99 mol% 2,3,3,3-tetrafluoropropene-based structural units and 1 to 90 mol% vinylidene fluoride-based structural units. The second polymer different from the fluorinated ethylene-propylene polymer is selected from a low cost, easily processable glassy polymer.

Abstract translation: 本发明一般涉及气体分离膜，特别是涉及用于气体分离的高选择性氟化乙烯 - 丙烯聚合物聚合物共混膜。 聚合物共混膜包含氟化乙烯 - 丙烯聚合物和不同于氟化乙烯 - 丙烯聚合物的第二聚合物。 本发明中的氟化乙烯 - 丙烯聚合物是含有10〜99摩尔％2,3,3,3-四氟丙烯系结构单元和1〜90摩尔％偏二氟乙烯系结构单元的共聚物。 不同于氟化乙烯 - 丙烯聚合物的第二种聚合物选自低成本，容易加工的玻璃状聚合物。

公开(公告)号：WO2012173776A3

公开(公告)日：2012-12-20

申请号：PCT/US2012/040057

申请日：2012-05-31

Applicant: UOP LLC ,  LIU, Chunqing ,  BOWEN, Travis C. ,  HARBERT, Emily G. ,  MINKOV, Raisa ,  FAHEEM, Syed A. ,  OSMAN, Zara

Inventor： LIU, Chunqing ,  BOWEN, Travis C. ,  HARBERT, Emily G. ,  MINKOV, Raisa ,  FAHEEM, Syed A. ,  OSMAN, Zara

IPC: B01D71/64 ,  B01D61/02 ,  C02F1/44

Abstract: The present invention discloses a new type of polyimide membrane with high permeances and high selectivities for gas separations and particularly for CO 2 /CH 4 and H 2 /CH 4 separations. The polyimide membranes have CO 2 permeability of 50 Barrers or higher and single-gas selectivity for CO 2 /CH 4 of 15 or higher at 50°C under 791 kPa for CO 2 /CH 4 separation. The polyimide membranes have UV cross-linkable functional groups and can be used for the preparation of UV cross-linked polyimide membranes having CO 2 permeability of 20 Barrers or higher and single-gas selectivity for CO 2 /CH 4 of 35 or higher at 50°C under 791 kPa for CO 2 /CH 4 separation.

公开(公告)号：WO2019126258A1

公开(公告)日：2019-06-27

申请号：PCT/US2018/066375

申请日：2018-12-19

Applicant: UOP LLC

Inventor： OSMAN, Zara ,  PAN, Wei

IPC: C01G49/02 ,  C01G51/04 ,  C01G53/04 ,  C01G37/02 ,  C01G39/02 ,  C01G41/02 ,  B01J23/85 ,  B01J27/047 ,  B01J37/03 ,  C10G45/08 ,  C10G45/50 ,  C10G45/60 ,  B01J37/20 ,  C10G47/04

Abstract: A highly active quaternary mixed transition metal oxide material has been developed. The material may be sulfided to generate metal sulfides which are used as a catalyst in a conversion process such as hydroprocessing. The hydroprocessing may include hydrodenitrification, hydrodesulfurization, hydrodemetallation, hydrodesilication, hydrodearomatization, hydroisomerization, hydrotreating, hydrofining, and hydrocracking.

公开(公告)号：WO2019126161A1

公开(公告)日：2019-06-27

申请号：PCT/US2018/066223

申请日：2018-12-18

Applicant: UOP LLC

Inventor： OSMAN, Zara ,  PAN, Wei ,  MOSCOSO, Jamie G.

IPC: C01G49/02 ,  C01G51/04 ,  C01G53/04 ,  C01G37/02 ,  C01G39/02 ,  C01G41/02 ,  B01J23/85 ,  B01J27/047 ,  B01J37/03 ,  C04J45/08 ,  C10G45/50 ,  C10G45/60 ,  B01J37/20 ,  C10G47/04

Abstract: A highly active trimetallic mixed transition metal oxide material has been developed. The material may be sulfided to generate metal sulfides which are used as a catalyst in a conversion process such as hydroprocessing. The hydroprocessing may include hydrodenitrification, hydrodesulfurization, hydrodemetallation, hydrodesilication, hydrodearomatization, hydroisomerization, hydrotreating, hydrofining, and hydrocracking.

公开(公告)号：WO2023049700A1

公开(公告)日：2023-03-30

申请号：PCT/US2022/076713

申请日：2022-09-20

Applicant: UOP LLC

Inventor： OSMAN, Zara ,  KENDER, William T.

IPC: H01M8/18 ,  H01M8/24

Abstract: A redox flow battery system having decreased cross-over of active species and decreased hydrogen generation, which is particularly important with less expensive polyethylene or polypropylene membranes. The redox flow battery system comprises at least one rechargeable cell comprising a positive electrolyte, a negative electrolyte, and a separator positioned between the positive electrolyte and the negative electrolyte. The positive electrolyte is in contact with a positive electrode, and the negative electrolyte is in contact with a negative electrode. The positive and negative electrolytes comprise water and a metal precursor, and the concentration of the metal precursor in the negative electrolyte is greater than the concentration of the metal precursor in the positive electrolyte. The metal in the metal precursor comprises iron, copper, zinc manganese, titanium, tin, silver, vanadium, or cerium.

公开(公告)号：WO2023049702A1

公开(公告)日：2023-03-30

申请号：PCT/US2022/076715

申请日：2022-09-20

Applicant: UOP LLC

Inventor： KENDER, William T. ,  OSMAN, Zara

IPC: H01M8/18 ,  H01M8/04186 ,  H01M8/04276 ,  H01M8/04791

Abstract: A method of refreshing an asymmetric redox flow battery system is described. The redox flow battery system comprises: at least one rechargeable cell comprising a positive electrolyte, a negative electrolyte, and a separator positioned between the positive electrolyte and the negative electrolyte, the positive electrolyte in contact with a positive electrode, and the negative electrolyte in contact with a negative electrode; the positive electrolyte comprising water and a metal precursor and having a volume; the negative electrolyte comprising water and the metal precursor and having a volume; the negative electrolyte having a concentration of the metal precursor greater than a concentration of the metal precursor in the positive electrolyte. The flow of mixed electrolyte past the negative electrode is prevented, and the negative electrolyte and positive electrolyte are mixed together. The mixed solution is reapportioned to the negative and positive sides based on the initial negative and positive electrolyte volumes. Flow of the refreshed negative electrolyte past the negative electrode is then resumed.

公开(公告)号：WO2019126403A1

公开(公告)日：2019-06-27

申请号：PCT/US2018/066632

申请日：2018-12-20

Applicant: UOP LLC

Inventor： OSMAN, Zara ,  PAN, Wei

IPC: C01G49/02 ,  C01G51/04 ,  C01G53/04 ,  C01G37/02 ,  C01G39/02 ,  C01G41/02 ,  B01J23/887 ,  B01J27/047 ,  B01J37/03 ,  C10G45/08 ,  C10G45/50 ,  C10G45/60 ,  C01G9/02 ,  C01G3/02 ,  C01G25/02 ,  C10G45/02 ,  C10G47/04 ,  B01J37/20

Abstract: A highly active quaternary mixed transition metal oxide material has been developed. The material may be sulfided to generate metal sulfides which are used as catalyst in a conversion process such as hydroprocessing. The hydroprocessing may include hydrodenitrification, hydrodesulfurization, hydrodemetallation, hydrodesilication, hydrodearomatization, hydroisomerization, hydrotreating, hydrofining, and hydrocracking.

公开(公告)号：WO2019126191A1

公开(公告)日：2019-06-27

申请号：PCT/US2018/066260

申请日：2018-12-18

Applicant: UOP LLC

Inventor： OSMAN, Zara ,  PAN, Wei

IPC: C01G49/02 ,  C01G51/04 ,  C01G53/04 ,  C01G37/02 ,  C01G39/02 ,  C01G41/02 ,  C01G9/02 ,  C01G3/02 ,  C01G25/02 ,  C01G45/02 ,  C01G45/08 ,  C10G45/08 ,  C10G45/50 ,  C10G45/60 ,  C10G47/04 ,  B01J23/887 ,  B01J27/047 ,  B01J37/03 ,  B01J37/20

Abstract: A highly active quaternary mixed transition metal oxide material has been developed. The material may be sulfided to generate metal sulfides which are used as a catalyst in a conversion process such as hydroprocessing. The hydroprocessing may include hydrodenitrification, hydrodesulfurization, hydrodemetallation, hydrodesilication, hydrodearomatization, hydroisomerization, hydrotreating, hydrofining, and hydrocracking.