公开(公告)号：US20180273854A1

公开(公告)日：2018-09-27

申请号：US15991709

申请日：2018-05-29

Applicant: KING FAHD UNIVERSITY OF PETROLEUM AND MINERALS

Inventor： Mazen Mohammad KHALED ,  Mazen Khaled NAZAL ,  Muataz Ali ATIEH

IPC: C10G25/00 ,  C10G25/12 ,  C10G67/06 ,  C10G53/02 ,  C10G53/08 ,  C10G53/14 ,  B01J20/20 ,  C10G25/05 ,  B01J20/08 ,  B01J20/00 ,  C10G25/09

CPC classification number: C10G25/003 ,  B01J20/00 ,  B01J20/08 ,  B01J20/20 ,  B01J20/205 ,  B01J20/28007 ,  B01J2220/42 ,  C10G25/05 ,  C10G25/09 ,  C10G25/12 ,  C10G53/02 ,  C10G53/08 ,  C10G53/14 ,  C10G67/06 ,  C10G2300/202 ,  C10G2400/04 ,  H05K999/99

Abstract: The present disclosure provides a method for removing sulfur compounds from a fuel containing sulfur compounds. The method includes contacting the fuel with an adsorbent that comprises a carbonaceous material doped with nanoparticles of aluminum oxide to reduce the concentrations of the sulfur compounds. The carbonaceous material is at least one selected from the group consisting of activated carbon, carbon nanotubes, and graphene oxide, and the adsorbent has a weight ratio of C to Al in the range from 3:1 to 30:1, and a weight ratio of C to O in the range from 1:1 to 10:1.

公开(公告)号：US20180010055A1

公开(公告)日：2018-01-11

申请号：US15707198

申请日：2017-09-18

Applicant: KING FAHD UNIVERSITY OF PETROLEUM AND MINERALS

Inventor： Mazen Mohammad KHALED ,  Mazen Khaled NAZAL ,  Muataz Ali ATIEH

IPC: C10G25/00 ,  B01J20/08 ,  C10G67/06 ,  C10G53/14 ,  B01J20/20 ,  B01J20/00 ,  C10G25/12 ,  C10G25/09 ,  C10G25/05 ,  C10G53/02 ,  C10G53/08

CPC classification number: C10G25/003 ,  B01J20/00 ,  B01J20/08 ,  B01J20/205 ,  C10G25/05 ,  C10G25/09 ,  C10G25/12 ,  C10G53/02 ,  C10G53/08 ,  C10G53/14 ,  C10G67/06 ,  C10G2300/202 ,  C10G2400/04

Abstract: The present disclosure provides a method for removing sulfur compounds from a fuel containing sulfur compounds. The method includes contacting the fuel with an adsorbent that comprises a carbonaceous material doped with nanoparticles of aluminum oxide to reduce the concentrations of the sulfur compounds. The carbonaceous material is at least one selected from the group consisting of activated carbon, carbon nanotubes, and graphene oxide, and the adsorbent has a weight ratio of C to Al in the range from 3:1 to 30:1, and a weight ratio of C to O in the range from 1:1 to 10:1.

公开(公告)号：US09670422B2

公开(公告)日：2017-06-06

申请号：US14549510

申请日：2014-11-20

Applicant: UOP LLC

Inventor： Henry Rastelli ,  Jayant K. Gorawara ,  Dante A. Simonetti

IPC: C10G25/05 ,  B01D53/02 ,  B01J20/18 ,  B01J20/34 ,  B01J20/28

CPC classification number: C10G25/05 ,  B01D53/02 ,  B01D2253/108 ,  B01D2253/1122 ,  B01D2253/308 ,  B01D2256/24 ,  B01D2256/245 ,  B01D2257/602 ,  B01J20/186 ,  B01J20/28019 ,  B01J20/28078 ,  B01J20/3408 ,  B01J20/3458 ,  B01J2220/56 ,  C10G2300/205

Abstract: The invention relates to a process for removing and recovering mercury, an impurity, from a hydrocarbon feedstream containing oxygen, such as introduced during hydraulic fracturing. Mercury is selectively removed to very low levels of concentration from fluid streams such as natural gas, cracked gas, hydrogen or naphtha by passage of the stream through an adsorbent bed containing particles of a zeolitic molecular sieve preferably having pore diameters of at least 3.0 angstroms and in which the zeolite crystallites are formed into an aggregate (cylindrical or beads) which contain ionic or elemental silver. These adsorbent particles maintain their capacity for removal of mercury despite the presence of oxygen.

公开(公告)号：US20170137723A1

公开(公告)日：2017-05-18

申请号：US15311867

申请日：2015-05-18

Applicant: SHELL OIL COMPANY

Inventor： Johannes Bernardus Wilhelmus MORSINK ,  Robert RIEMERSMA ,  Johannes TURFBOER ,  Rendert Jan WIERSMA

IPC: C10G25/05 ,  C10G53/08 ,  C10G7/00

CPC classification number: C10G25/05 ,  C10G7/00 ,  C10G25/02 ,  C10G53/08 ,  C10G2300/1022 ,  C10G2300/1048 ,  C10G2300/1051 ,  C10G2300/1055 ,  C10G2400/06

Abstract: The present invention provides a process for preparing a high purity Fischer-Tropsch gasoil fraction, comprising: a) providing a Fischer-Tropsch-derived gasoil feedstock comprising one or more contaminants; b) providing the Fischer-Tropsch-derived gasoil feedstock to a fractionation zone and fractionating the Fischer-Tropsch-derived gasoil feedstock into two or more Fischer-Tropsch gasoil fractions having a different boiling point range, wherein at least one Fischer-Tropsch gasoil fraction is a contaminant-enriched Fischer-Tropsch gasoil fraction, which is enriched in one or more contaminants with respect to the feedstock; c) providing the contaminant-enriched Fischer-Tropsch gasoil fraction to an absorption zone comprising at least one absorbent material and contacting the contaminant-enriched Fischer-Tropsch gasoil fraction with the absorbent material to absorb at least part of contaminant; and d) retrieving from the absorption zone a purified Fischer-Tropsch gasoil fraction, which is contaminant-depleted. The invention further provides for further processes for preparing a high purity Fischer-Tropsch gasoil fraction and the use of the purified Fischer-Tropsch gasoil fraction.

公开(公告)号：US20160304791A1

公开(公告)日：2016-10-20

申请号：US14923514

申请日：2015-10-27

Applicant: Chevron U.S.A. Inc.

Inventor： Dennis John O'Rear ,  Wei Wang ,  Nga Malekzadeh

IPC: C10G29/02 ,  C10G25/00 ,  C10G25/12

CPC classification number: C10G29/02 ,  C10G25/003 ,  C10G25/05 ,  C10G25/06 ,  C10G25/12 ,  C10G27/02 ,  C10G29/20 ,  C10G29/26 ,  C10G53/08 ,  C10G57/00 ,  C10G2300/205

Abstract: A process for removing non-volatile, particulate mercury from crudes and condensates is disclosed. Particulate mercury in crudes can be removed by a process of first adding a halogen, such as I2. The halogen converts at least 10% of the particulate mercury into an oil-soluble mercury compound that cannot be removed by filtration or centrifugation. This oil-soluble mercury compound can then be removed by adsorption onto a solid adsorbent. The process can operate at near ambient conditions. The adsorption step can be carried out by mixing a particulate adsorbent in the halogen-treated crude and then removing it by centrifugation, desalting, filtration, hydrocyclone or by settling.

Abstract translation: 公开了从原油和冷凝物中除去不挥发性微粒汞的方法。 可以通过首先加入卤素如I2的方法除去原油中的微粒汞。 卤素将至少10％的微粒汞转化为油溶性汞化合物，其不能通过过滤或离心除去。 然后可以通过吸附到固体吸附剂上去除该油溶性汞化合物。 该过程可在近乎环境条件下运行。 吸附步骤可以通过在卤素处理的粗品中混合颗粒吸附剂，然后通过离心，脱盐，过滤，水力旋流器或沉降来除去来进行。

公开(公告)号：US08986622B2

公开(公告)日：2015-03-24

申请号：US12658660

申请日：2010-02-09

Applicant: Omer Refa Koseoglu ,  Adnan Al-Hajji ,  Hendrik Muller

Inventor： Omer Refa Koseoglu ,  Adnan Al-Hajji ,  Hendrik Muller

IPC: C10G25/11 ,  C10G7/06 ,  C10G7/00 ,  C10G25/00 ,  C10G25/05 ,  C10G25/12

CPC classification number: C10G25/11 ,  C10G7/00 ,  C10G7/06 ,  C10G25/003 ,  C10G25/05 ,  C10G25/12 ,  C10G2300/202 ,  C10G2300/205

Abstract: A crude oil feedstream is treated to remove or reduce the content of known undesired heteroatomic and polynuclear aromatic compounds containing nitrogen and sulfur by contacting the feedstream with one or more solid adsorbent materials selected from attapulgus clay, alumina, silica gel and activated carbon in a mixing vessel for a time that is sufficient to optimize the adsorption of the undesired compounds from the crude oil, subjecting the mixture to atmospheric flash distillation and then to vacuum flash distillation to recover presorbed boiling ranges of products having a lowered content of the undesired compounds, and preferably regenerating at least a portion of the solid adsorbent material for reuse in the process.

Abstract translation: 处理原油进料流以除去或减少含有氮和硫的已知不需要的杂原子和多核芳族化合物的含量，其通过将进料流与选自attapulgus粘土，氧化铝，硅胶和活性炭的一种或多种固体吸附材料接触，混合 容器足以优化来自原油的不期望的化合物的吸附，使混合物经历大气闪蒸，然后进行真空闪蒸以回收具有降低的不期望的化合物含量的产物的沸点范围，以及 优选地在该过程中再生至少一部分固体吸附剂材料以供再利用。

公开(公告)号：US08888994B2

公开(公告)日：2014-11-18

申请号：US13090157

申请日：2011-04-19

Applicant: Valerii Kukhar ,  Volodymir Kashkovski ,  Vladislav Kyselov ,  Yurii Besugly ,  Yurii Kyselov ,  Rajender Varma ,  Subhas Sikdar

Inventor： Valerii Kukhar ,  Volodymir Kashkovski ,  Vladislav Kyselov ,  Yurii Besugly ,  Yurii Kyselov ,  Rajender Varma ,  Subhas Sikdar

IPC: C10G27/00 ,  C10G27/04 ,  C10G27/14 ,  C10G25/06 ,  C10G53/08 ,  C10G25/05 ,  C10G53/14

CPC classification number: C10G27/14 ,  C10G25/05 ,  C10G27/04 ,  C10G53/08 ,  C10G53/14 ,  C10G2300/104 ,  C10G2300/1044 ,  C10G2300/1051 ,  C10G2300/1055 ,  C10G2300/202 ,  C10G2400/02 ,  C10G2400/04 ,  C10G2400/08

Abstract: Method for deep desulphurization of hydrocarbon fuels includes following steps: (1) treatment of a hydrocarbon fuel under the condition of its mixing with gaseous oxidant selected from the group consisting nitrogen monoxide, dry air, ozone and a mixture of at least two of said reagents in order to oxidize sulfur-containing compounds presented in said fuel, and with a fine-dispersed adsorbent based on montmorillonite in order to adsorb oxidized sulfur-containing compounds, and (2) separation of spent adsorbent together with adsorbed oxidized sulfur-containing compounds from refined fuel.

Abstract translation: 烃燃料的深度脱硫方法包括以下步骤：（1）在与选自一氧化氮​​，干燥空气，臭氧和至少两种所述试剂的混合物的气态氧化剂混合的条件下处理烃燃料 为了氧化存在于所述燃料中的含硫化合物，并且使用基于蒙脱土的细分散吸附剂以吸附氧化的含硫化合物，和（2）将废吸附剂与吸附的氧化含硫化合物一起分离 精炼燃料。

公开(公告)号：US20140018599A1

公开(公告)日：2014-01-16

申请号：US14030542

申请日：2013-09-18

Applicant: Olivier DUCREAUX ,  Christophe NEDEZ ,  Catherine POMMIER

Inventor： Olivier DUCREAUX ,  Christophe NEDEZ ,  Catherine POMMIER

IPC: C07C7/13

CPC classification number: C07C7/13 ,  B01D53/02 ,  B01D2253/104 ,  B01D2253/108 ,  B01J20/183 ,  B01J20/186 ,  C10G25/05

Abstract: Method for preparation of an adsorbent that comprises successive shaping stages by co-granulation of a faujasite-type zeolite powder A, with a powder B that consists of alumina, whereby the ratio per unit of mass of the powder A in the mixture of powders A and B is between 10 and 70%, for treatment under water vapor and drying.The invention also relates to a process for adsorption of organic contaminants that contain at least one heteroatom and that are present in an olefinic feedstock that comprises at least 50% by volume of hydrocarbons, whereby this process comprises the stage for bringing the olefinic feedstock into contact with the adsorbent that is obtained by the preparation method according to the invention.

Abstract translation: 通过将八面沸石型沸石粉末A与由氧化铝组成的粉末B共同造粒而形成连续成型阶段的吸附剂的制造方法，由此粉末A的混合物中的粉末A的单位质量比 B为10〜70％，用于水蒸汽干燥处理。 本发明还涉及一种吸附含有至少一个杂原子且存在于包含至少50体积％的烃的烯烃原料中的有机污染物的方法，由此该方法包括使烯烃原料接触的阶段 与通过根据本发明的制备方法获得的吸附剂。

公开(公告)号：US20130255136A1

公开(公告)日：2013-10-03

申请号：US13436648

申请日：2012-03-30

Applicant: Lance Awender Baird ,  Timothy A. Brandvold

Inventor： Lance Awender Baird ,  Timothy A. Brandvold

IPC: C10L1/00 ,  B01D24/46 ,  B01J49/00

CPC classification number: B01J39/043 ,  B01J39/05 ,  B01J39/20 ,  B01J49/06 ,  B01J49/53 ,  B01J49/60 ,  C10B53/02 ,  C10G1/002 ,  C10G3/50 ,  C10G25/05 ,  C10G25/12 ,  Y02E50/14 ,  Y02P20/145 ,  Y02P30/20

Abstract: Processes and apparatuses for washing a spent ion exchange bed and for treating biomass-derived pyrolysis oil are provided herein. An exemplary process for washing a spent ion exchange bed employed in purification of biomass-derived pyrolysis oil includes the step of providing a ion-depleted pyrolysis oil stream having an original oxygen content. The ion-depleted pyrolysis oil stream is partially hydrotreated to reduce the oxygen content thereof, thereby producing a partially hydrotreated pyrolysis oil stream having a residual oxygen content that is less than the original oxygen content. At least a portion of the partially hydrotreated pyrolysis oil stream is passed through the spent ion exchange bed. Water is passed through the spent ion exchange bed after passing at least the portion of the partially hydrotreated pyrolysis oil stream therethrough.

Abstract translation: 本文提供了用于洗涤废离子交换床和处理生物质衍生的热解油的方法和设备。 用于净化生物质衍生的热解油所用的废离子交换床的示例性方法包括提供具有原始氧含量的离子贫化裂解油流的步骤。 部分加氢处理离子贫化热解油料流以降低其氧含量，由此产生部分加氢处理的裂解油料流，其残余氧含量小于原始氧含量。 部分加氢处理的热解油流中的至少一部分通过废离子交换床。 在通过部分加氢处理的热解油流的至少一部分之后，水通过废离子交换床。

公开(公告)号：US20130078540A1

公开(公告)日：2013-03-28

申请号：US13681584

申请日：2012-11-20

Applicant: Sud-Chemie Inc.

Inventor： Chandra Ratnasamy ,  Jon P. Wagner ,  R. Steve Spivey ,  Hans-Georg Anfang

IPC: C07C7/12 ,  B01J20/18 ,  H01M8/06

CPC classification number: C07C7/12 ,  B01D53/02 ,  B01D53/04 ,  B01D2253/108 ,  B01D2253/1124 ,  B01D2256/245 ,  B01D2257/306 ,  B01D2257/308 ,  B01D2259/4145 ,  B01J20/0222 ,  B01J20/0229 ,  B01J20/0237 ,  B01J20/0244 ,  B01J20/06 ,  B01J20/08 ,  B01J20/18 ,  B01J20/186 ,  B01J20/20 ,  B01J20/2803 ,  B01J20/28057 ,  B01J2220/42 ,  C10G25/003 ,  C10G25/05 ,  C10G53/08 ,  C10G2300/202 ,  C10G2300/4006 ,  C10G2300/805 ,  H01M8/0675

Abstract: A method for producing a substantially desulfurized a hydrocarbon fuel stream at temperatures less than 100° C. The method includes providing a nondesulfurized fuel cell hydrocarbon fuel stream that may include water and passing the fuel stream sequentially through a zeolite Y adsorbent and a selective sulfur adsorbent. The zeolite Y adsorbent may be exchanged with copper ions. The method produces a substantially desulfurized hydrocarbon fuel stream containing less than 50 ppb sulfur.

Abstract translation: 一种用于在低于100℃的温度下生产基本上脱硫的烃燃料流的方法。该方法包括提供非脱硫的燃料电池烃燃料流，其可包括水并使燃料流顺序地通过沸石Y吸附剂和选择性硫吸附剂 。 沸石Y吸附剂可以与铜离子交换。 该方法产生含有少于50ppb硫的基本上脱硫的烃燃料流。