Method and catalyst for removing contaminants from hydrocarbonaceous
fluids using a copper-Group VIA metal-alumina catalyst
    52.
    发明授权
    Method and catalyst for removing contaminants from hydrocarbonaceous fluids using a copper-Group VIA metal-alumina catalyst 失效
    使用铜基VIA金属 - 氧化铝催化剂从含烃流体中除去污染物的方法和催化剂

    公开(公告)号:US4539101A

    公开(公告)日:1985-09-03

    申请号:US524064

    申请日:1983-08-17

    IPC分类号: B01J23/85 C10G45/04 C01G45/04

    CPC分类号: B01J23/85 C10G45/04

    摘要: There is provided a method and catalyst for removing catalyst-poisoning impurities or contaminants such as arsenic, iron and nickel from hydrocarbonaceous fluids, particularly shale oil and fractions thereof. More particularly there is provided a method of removal of such impurities by contacting the fluids with a copper-Group VIA metal-alumina catalyst. For example, a copper-molybdenum-alumina catalyst may be used as a guard bed material in a step preceding most refining operations, such as desulfurization, denitrogenation, catalytic hydrogenation, etc.

    摘要翻译: 提供了一种从含烃流体,特别是页岩油及其馏分中除去催化剂中毒杂质或污染物如砷,铁和镍的方法和催化剂。 更具体地,提供了通过使流体与铜基团VIA金属 - 氧化铝催化剂接触来除去这些杂质的方法。 例如,可以在大多数精炼操作之前的步骤中使用铜 - 钼 - 氧化铝催化剂作为保护床材料,例如脱硫,脱氮,催化氢化等。

    Olefin upgrading by selective catalysis
    55.
    发明授权
    Olefin upgrading by selective catalysis 失效
    通过选择性催化提升烯烃

    公开(公告)号:US5220089A

    公开(公告)日:1993-06-15

    申请号:US718887

    申请日:1991-06-21

    IPC分类号: C07C6/04

    CPC分类号: C07C6/04

    摘要: Olefins are converted to lower alkene hydrocarbon products, e.g., propene, butenes, and isoalkenes with zeolite MCM-22 catalyst. This catalytic conversion is particularly useful in the selective separation of linear olefins in mixed hydrocarbon streams, employing MCM-22 catalyst to convert these straight-chain unsaturated components to lighter products, particularly, C.sub.3 -C.sub.4 olefins. One potential application of this selective separation is in the removal of linear olefins from FCC gasoline.

    摘要翻译: 使用沸石MCM-22催化剂将烯烃转化为低级烯烃产物,例如丙烯,丁烯和异烯烃。 该催化转化特别可用于混合烃流中的线性烯烃的选择性分离,采用MCM-22催化剂将这些直链不饱和组分转化成较轻的产物,特别是C 3 -C 4烯烃。 这种选择性分离的一个潜在应用是从FCC汽油中除去线性烯烃。

    Aromatics alkylation process
    56.
    发明授权
    Aromatics alkylation process 失效
    芳烃烷基化方法

    公开(公告)号:US5191134A

    公开(公告)日:1993-03-02

    申请号:US732264

    申请日:1991-07-18

    申请人: Quang N. Le

    发明人: Quang N. Le

    IPC分类号: B01J29/04 C07C2/66

    摘要: Long chain alkyl substituted aromatic compounds, particularly alkylated naphthalenes are produced by the alkylation of aromatics, e.g. naphthalene, with an olefin or other alkylating agent possessing at least 6 carbon atoms, usually 12 to 20 carbon atoms, in the presence of an alkylation catalyst which comprises a mesoporous crytalline material. The mesoporous material has pores with diameters of at least 13 .ANG. which, in the preferred catalytic form, are arranged in a uniform hexagonal arrangement, and have a X-ray diffraction pattern with at least one d-spacing greater than about 18 .ANG.. These materials exhibit benzene adsorption capacities greater than about 15 grams benzene per 100 grams at 50 torr and 25.degree. C. In its preferred catalytic form, the crystalline material exhibits a hexagonal electron diffraction pattern that can be indexed with a d.sub.100 value greater than about 18 .ANG. which corresponds to at least one peak in the X-ray diffraction pattern.

    摘要翻译: 长链烷基取代的芳族化合物,特别是烷基化萘是通过芳族化合物的烷基化生产的。 萘与具有至少6个碳原子,通常为12至20个碳原子的烯烃或其它烷基化剂在含有介孔催化剂的烷基化催化剂存在下反应。 介孔材料具有直径至少为13的孔,其以优选的催化形式排列成均匀的六边形排列,并且具有至少一个D间距大于约18的X射线衍射图。 这些材料在50托和25℃下表现出大于约15克苯/ 100克的苯吸附能力。在其优选的催化形式中,结晶材料表现出六边形电子衍射图,其可以以大于约18的d100值 ANGSTROM对应于X射线衍射图中的至少一个峰。

    Process for producing alkylaromatic lubricant fluids
    58.
    发明授权
    Process for producing alkylaromatic lubricant fluids 失效
    生产烷基芳族润滑剂流体的方法

    公开(公告)号:US5019670A

    公开(公告)日:1991-05-28

    申请号:US515030

    申请日:1990-04-26

    摘要: The thermal and oxidative stability of HVI-PAO olefin oligomers is improved by alkylation in the presence of a solid, porous, acidic alkylation catalyst defined by a specific X-ray diffraction pattern. A preferred catalyst is the synthetic zeolite MCM-22. The olefinic oligomers used as alkylating agents are prepared from 1-alkene oligomerization in contact with a reduced metal oxide, preferably reduced chromium oxide, catalyst on support such as silica. Aromatics which may be used in the reaction include monocyclic aromatics such as benzene and toluene as well as bicyclic aromatics such as naphthalene. Substituted aromatics may be used in order to introduce functional groups such as hydroxyl groups into the products, for example by the use of hydroxyaromtics such as phenol or naphthaol. The alkylated aromatic hydrocarbon products retain the unique features of the alkylating olefinic oligomer and exhibit high viscosity index and low pour point as well as improved thermal and oxidative stability and additive solvency characteristics.

    摘要翻译: 在特定X射线衍射图所定义的固体,多孔酸性烷基化催化剂存在下,通过烷基化改进了HVI-PAO烯烃低聚物的热和氧化稳定性。 优选的催化剂是合成沸石MCM-22。 用作烷基化剂的烯烃低聚物由与还原的金属氧化物,优选还原的氧化铬,载体如二氧化硅上的催化剂接触的1-烯烃低聚制备。 可用于反应的芳族化合物包括单环芳族化合物如苯和甲苯以及双环芳烃如萘。 可以使用取代的芳族化合物,以便将诸如羟基的官能团引入产物中,例如通过使用羟基促进剂如苯酚或石脑油。 烷基化芳烃产物保留了烷基化烯属低聚物的独特特征,并表现出高粘度指数和低倾点,以及改善的热和氧化稳定性和添加剂溶解性能。

    Process for selective removal of CCR, arsenic and conjugated diolefins
from shale oil
    59.
    发明授权
    Process for selective removal of CCR, arsenic and conjugated diolefins from shale oil 失效
    从页岩油中选择性除去CCR,砷和共轭二烯烃的方法

    公开(公告)号:US4501652A

    公开(公告)日:1985-02-26

    申请号:US544021

    申请日:1983-10-20

    IPC分类号: C10G65/04 C10G65/06 C10G67/06

    CPC分类号: C10G65/04

    摘要: A hydrocarbonaceous feedstock upgrading process is disclosed. Spent nickel arsenide-containing catalyst from demetallation guard chambers or hydroprocessing operations are utilized to upgrade the hydrocarbonaceous feedstock prior to dearsenation. The spent catalysts have significant activity for diolefin saturation and CCR removal at temperatures low enough to reduce olefin polymerization reactions.

    摘要翻译: 公开了一种含烃原料提质方法。 来自脱金属保护室或加氢处理操作的耗氧化镍催化剂用于在脱砷之前升级含烃原料。 废催化剂在低至足以降低烯烃聚合反应的温度下对二烯烃饱和和CCR去除具有显着的活性。