Simultaneous hydrocracking of multiple feedstocks
    1.
    发明授权
    Simultaneous hydrocracking of multiple feedstocks 有权
    同时加氢裂化多种原料

    公开(公告)号:US07686941B2

    公开(公告)日:2010-03-30

    申请号:US11530637

    申请日:2006-09-11

    IPC分类号: C10G45/00

    CPC分类号: C10G65/12 C10G65/14

    摘要: A process for simultaneously hydrocracking multiple feedstocks wherein a first feedstock is hydrotreated in a hydrotreating zone to produce a hydrotreating zone effluent which is separated to provide a first vaporous hydrocarbonaceous stream and a first liquid hydrocarbonaceous stream. The second feedstock and the first vaporous hydrocarbonaceous stream are hydroprocessed in a hydroprocessing zone to produce a hydroprocessing zone effluent. A third feedstock and the first liquid hydrocarbonaceous stream are hydrocracked in a hydrocracking zone to produce a hydrocracking zone effluent. The hydrocracking zone effluent and the hydroprocessing zone effluent are separated to recover hydrocracked hydrocarbons.

    摘要翻译: 一种同时加氢裂化多种原料的方法,其中第一原料在加氢处理区中加氢处理以产生加氢处理区流出物,其被分离以提供第一气态烃流和第一液体烃流。 将第二原料和第一气相烃流在加氢处理区中加氢处理以产生加氢处理区流出物。 将第三原料和第一液体烃流在加氢裂化区中加氢裂化以产生加氢裂化区流出物。 加氢裂化区流出物和加氢处理区流出物被分离以回收加氢裂化烃。

    Simultaneous Hydrocracking of Multiple Feedstocks
    2.
    发明申请
    Simultaneous Hydrocracking of Multiple Feedstocks 有权
    多原料同时加氢裂化

    公开(公告)号:US20080060976A1

    公开(公告)日:2008-03-13

    申请号:US11530637

    申请日:2006-09-11

    IPC分类号: C10G45/00

    CPC分类号: C10G65/12 C10G65/14

    摘要: A process for simultaneously hydrocracking multiple feedstocks wherein a first feedstock is hydrotreated in a hydrotreating zone to produce a hydrotreating zone effluent which is separated to provide a first vaporous hydrocarbonaceous stream and a first liquid hydrocarbonaceous stream. The second feedstock and the first vaporous hydrocarbonaceous stream are hydroprocessed in a hydroprocessing zone to produce a hydroprocessing zone effluent. A third feedstock and the first liquid hydrocarbonaceous stream are hydrocracked in a hydrocracking zone to produce a hydrocracking zone effluent. The hydrocracking zone effluent and the hydroprocessing zone effluent are separated to recover hydrocracked hydrocarbons.

    摘要翻译: 一种同时加氢裂化多种原料的方法,其中第一原料在加氢处理区加氢处理以产生加氢处理区流出物,其被分离以提供第一蒸气烃流和第一液体烃流。 将第二原料和第一气相烃流在加氢处理区中加氢处理以产生加氢处理区流出物。 将第三原料和第一液体烃流在加氢裂化区中加氢裂化以产生加氢裂化区流出物。 加氢裂化区流出物和加氢处理区流出物被分离以回收加氢裂化烃。

    Combination of mild hydrotreating and hydrocracking for making low sulfur diesel and high octane naphtha
    3.
    发明授权
    Combination of mild hydrotreating and hydrocracking for making low sulfur diesel and high octane naphtha 有权
    结合轻度加氢处理和加氢裂化制备低硫柴油和高辛烷值的石脑油

    公开(公告)号:US08404103B2

    公开(公告)日:2013-03-26

    申请号:US13286769

    申请日:2011-11-01

    IPC分类号: C10G47/00 C10G47/02

    摘要: Methods are disclosed for the hydrotreating and hydrocracking of highly aromatic distillate feeds such as light cycle oil (LCO) to produce ultra low sulfur gasoline and diesel fuel. Optimization of hydrotreater severity improves the octane quality of the gasoline or naphtha fraction. In particular, the operation of the hydrotreater at reduced severity to allow at least about 20 ppm by weight of organic nitrogen into the hydrocracker feed is shown to lead to these important benefits. Post-treating of the hydrocracker effluent over an additional hydrotreating catalyst bed may be desired to meet specifications for ultra low sulfur fuel components.

    摘要翻译: 公开了用于加氢处理和加氢裂解高芳烃馏出物如轻循环油(LCO)以产生超低硫汽油和柴油燃料的方法。 加氢处理剂严重性的优化提高了汽油或石脑油馏分的辛烷值。 特别地,加氢处理器以较低的苛刻度运行,使至少约20ppm重量的有机氮进入加氢裂化器进料显示出这些重要的益处。 在另外的加氢处理催化剂床上后处理加氢裂化器流出物可能需要满足超低硫燃料组分的规格。

    Integrated process for the production of ultra low sulfur diesel and low sulfur fuel oil
    5.
    发明授权
    Integrated process for the production of ultra low sulfur diesel and low sulfur fuel oil 有权
    用于生产超低硫柴油和低硫燃料油的综合工艺

    公开(公告)号:US07094332B1

    公开(公告)日:2006-08-22

    申请号:US10430484

    申请日:2003-05-06

    IPC分类号: C10G65/00 C10G67/00 C10G45/00

    CPC分类号: C10G65/12

    摘要: A hydrocracking process to produce ultra low sulfur diesel by reacting a first hydrocarbon feedstock in a hydrocracking zone, introducing the hydrocracking zone effluent and a second hydrocarbon feedstock having a majority boiling at a temperature greater than 565° C. (1050° F.) into a first desulfurization zone, passing the first desulfurization zone effluent to a hot, high pressure vapor-liquid separator to recover a vaporous hydrocarbonaceous stream and a first liquid hydrocarbonaceous stream, introducing the vaporous hydrocarbonaceous stream and a third hydrocarbonaceous feedstock comprising diesel into a second desulfurization zone, passing the second desulfurization zone effluent to a cold vapor-liquid separator to provide a hydrogen-rich gaseous stream and a second liquid hydrocarbonaceous stream and passing the first and the second liquid hydrocarbonaceous streams to a fractionation zone to produce ultra low sulfur diesel.

    摘要翻译: 一种加氢裂化方法,通过使加氢裂化区中的第一烃原料反应,引入加氢裂化区流出物和在大于565℃(1050°F)的温度下大部分沸腾的第二烃原料反应生成超低硫柴油 第一脱硫区,将第一脱硫区流出物通过热高压气液分离器,以回收蒸汽烃类物流和第一液态烃类物流,将蒸气烃物流和包含柴油的第三烃质原料引入第二脱硫剂 将第二脱硫区流出物通过冷汽 - 液分离器,以提供富氢气流和第二液态烃流,并将第一和第二液态烃流送至分馏区以产生超低硫柴油。

    Method to produce lube basestock
    6.
    发明授权
    Method to produce lube basestock 失效
    生产润滑油基础油的方法

    公开(公告)号:US06432297B1

    公开(公告)日:2002-08-13

    申请号:US09692970

    申请日:2000-10-23

    IPC分类号: C10G4700

    CPC分类号: C10G65/00 C10G2400/10

    摘要: A process for the production of lube oil basestock wherein a high boiling hydrocarbonaceous feedstock is hydrocracked to produce hydrocarbons boiling in the range of lube oil basestock and the resulting hydrocracker effluent is hot, hydrogen stripped to remove lower boiling hydrocarbons and hydrogen sulfide before being introduced into a hydrodewaxing zone. In a preferred embodiment the hot hydrogen stripper contains a hydrogenation zone conducted at “sweet” hydrogenating conditions which permits the subsequent use of sulfur sensitive catalysts in downstream reaction zones including hydrodewaxing and hydrofinishing reaction zones. Preferably, the effluent from the hydrodewaxing reaction zone is immediately further processed in a hydrofinishing reaction zone.

    摘要翻译: 用于生产润滑油基础油的方法,其中高沸点含烃原料被加氢裂化以产生在润滑油基础油料范围内沸腾的烃,并且所得加氢裂化器流出物是热的,氢气被汽提以除去低沸点烃和硫化氢,然后引入 加氢脱蜡区。 在优选的实施方案中,热氢汽提器包含在“甜”氢化条件下进行的氢化区,其允许在下游反应区域中随后使用硫敏感催化剂,包括加氢脱蜡和加氢精制反应区。 优选地,来自加氢脱蜡反应区的流出物在加氢精制反应区中立即进一步加工。

    Low conversion once-through hydrocracking process
    7.
    发明授权
    Low conversion once-through hydrocracking process 有权
    低转化率一次加氢裂化工艺

    公开(公告)号:US06315889B1

    公开(公告)日:2001-11-13

    申请号:US09422298

    申请日:1999-10-21

    IPC分类号: C10G6500

    CPC分类号: C10G65/12

    摘要: A feed stream is processed in a hydrotreating reaction zone and then the hydrotreating effluent is separated into two fractions in a first high pressure separator. The vapor fraction is passed into a second high pressure separator. A controlled portion of the liquid fraction from the first high pressure separator and the liquid from the second high pressure separator are passed into a hydrocracking zone. The remaining portion of the liquid from the first high pressure separator is passed into the product recovery zone.

    摘要翻译: 在加氢处理反应区中处理进料流,然后将加氢处理流出物在第一高压分离器中分离成两部分。 将蒸气馏分送入第二高压分离器。 将来自第一高压分离器的液体馏分和来自第二高压分离器的液体的受控部分进入加氢裂化区。 来自第一高压分离器的液体的剩余部分进入产物回收区。

    High severity, low conversion hydrocracking process
    8.
    发明授权
    High severity, low conversion hydrocracking process 有权
    高度苛刻,低转化加氢裂化过程

    公开(公告)号:US06294079B1

    公开(公告)日:2001-09-25

    申请号:US09422316

    申请日:1999-10-21

    IPC分类号: C10G6500

    CPC分类号: C10G65/12 C10G49/22

    摘要: A feed stream is first processed in a hydrotreating reaction zone and then the effluent is separated into three fractions in an augmented first high pressure separator. Controlled portions of the middle and heavy hydrocarbon fractions are passed into a high severity hydrocracking zone, while the remaining portions of these two fractions are passed into a second high pressure separator for recovery. The effluent of the hydrocracking zone is also fed to the second high pressure separator.

    摘要翻译: 首先在加氢处理反应区中加入进料流,然后在增加的第一高压分离器中将流出物分离成三个馏分。 中部和重质烃馏分的受控部分进入高度苛刻的加氢裂化区,而这两个馏分的剩余部分进入第二个高压分离器进行回收。 加氢裂化区的流出物也被送入第二高压分离器。

    Hydrocracking process with integrated effluent hydrotreating zone
    9.
    发明授权
    Hydrocracking process with integrated effluent hydrotreating zone 失效
    综合污水加氢处理区的加氢裂化工艺

    公开(公告)号:US5885440A

    公开(公告)日:1999-03-23

    申请号:US918436

    申请日:1997-08-26

    IPC分类号: C10G65/12 C10G69/02

    CPC分类号: C10G65/12

    摘要: The invention is a hydrocracking process which employs a small reactor-containing hydrotreating catalyst to reduce the recombinant mercaptan content and/or smoke point of a product recovered from the effluent of the hydrocracking reactor. The entire effluent of the hydrocracking reactor is first cooled by indirect heat exchange and then passed through the hydrotreating catalyst. The effluent of the hydrotreating catalyst then continues throughout the customary cooling and separation steps employed in the product recovery system.

    摘要翻译: 本发明是加氢裂化方法,其使用含有反应器的小型加氢处理催化剂来减少从加氢裂化反应器的流出物中回收的产物的重组硫醇含量和/或烟点。 首先通过间接热交换冷却加氢裂化反应器的全部流出物,然后通过加氢处理催化剂。 然后加氢处理催化剂的流出物在产品回收系统中采用的常规冷却和分离步骤中继续进行。

    COMBINATION OF MILD HYDROTREATING AND HYDROCRACKING FOR MAKING LOW SULFUR DIESEL AND HIGH OCTANE NAPHTHA
    10.
    发明申请
    COMBINATION OF MILD HYDROTREATING AND HYDROCRACKING FOR MAKING LOW SULFUR DIESEL AND HIGH OCTANE NAPHTHA 有权
    用于制造低硫柴油和高OCTONE NAPHTHA的混合加氢和水解混合

    公开(公告)号:US20100116712A1

    公开(公告)日:2010-05-13

    申请号:US12268048

    申请日:2008-11-10

    IPC分类号: C10G45/00

    摘要: Methods are disclosed for the hydrotreating and hydrocracking of highly aromatic distillate feeds such as light cycle oil (LCO) to produce ultra low sulfur gasoline and diesel fuel. Optimization of hydrotreater severity improves the octane quality of the gasoline or naphtha fraction. In particular, the operation of the hydrotreater at reduced severity to allow at least about 20 ppm by weight of organic nitrogen into the hydrocracker feed is shown to lead to these important benefits. Post-treating of the hydrocracker effluent over an additional hydrotreating catalyst bed may be desired to meet specifications for ultra low sulfur fuel components.

    摘要翻译: 公开了用于加氢处理和加氢裂解高芳烃馏出物如轻循环油(LCO)以产生超低硫汽油和柴油燃料的方法。 加氢处理剂严重性的优化提高了汽油或石脑油馏分的辛烷值。 特别地,加氢处理器以较低的苛刻度运行,使至少约20ppm重量的有机氮进入加氢裂化器进料显示出这些重要的益处。 在另外的加氢处理催化剂床上后处理加氢裂化器流出物可能需要满足超低硫燃料组分的规格。