会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 2. 发明授权
    • Support for Fischer-Tropsch catalyst having improved activity
    • 支持具有改善活性的费 - 托催化剂
    • US09192921B1
    • 2015-11-24
    • US14691797
    • 2015-04-21
    • Kandaswamy JothimurugesanHoward Steven Lacheen
    • Kandaswamy JothimurugesanHoward Steven Lacheen
    • B01J27/198B01J37/02B01J37/08B01J37/16C10G2/00
    • B01J27/198B01J23/83B01J35/002B01J35/006B01J35/1038B01J35/1042B01J37/0207B01J37/024B01J37/16C10G2/33C10G2/332
    • A process is disclosed for preparing a Fischer-Tropsch catalyst precursor and a catalyst made from the precursor. The process includes contacting an alumina catalyst support material with a first solution containing a vanadium compound and a phosphorus compound, to obtain a modified catalyst support material. The modified catalyst support material is calcined at a temperature of at least 500° C. The calcined modified catalyst support has a pore volume of at least 0.4 cc/g. The modified catalyst support is less soluble in acid solutions than an equivalent unmodified catalyst support. The modified catalyst support is contacted with a second solution which includes a precursor compound of an active cobalt catalyst component and glutaric acid to obtain a catalyst precursor. The catalyst precursor is reduced to activate the catalyst precursor to obtain the Fischer-Tropsch catalyst. The catalyst has enhanced hydrothermal stability and good activity.
    • 公开了制备费 - 托催化剂前体和由前体制备的催化剂的方法。 该方法包括使氧化铝催化剂载体材料与含有钒化合物和磷化合物的第一溶液接触,以获得改性的催化剂载体材料。 改性的催化剂载体材料在至少500℃的温度下煅烧。煅烧的改性催化剂载体的孔体积至少为0.4cc / g。 改性的催化剂载体在酸溶液中比相当的未改性的催化剂载体更难溶解。 改性的催化剂载体与包含活性钴催化剂组分的前体化合物和戊二酸的第二溶液接触以获得催化剂前体。 催化剂前体被还原以活化催化剂前体以获得费 - 托催化剂。 该催化剂具有增强的水热稳定性和良好的活性。
    • 5. 发明授权
    • Stable support for Fischer-Tropsch catalyst
    • 稳定支持费 - 托催化剂
    • US09233358B1
    • 2016-01-12
    • US14482344
    • 2014-09-10
    • Kandaswamy Jothimurugesan
    • Kandaswamy Jothimurugesan
    • B01J21/04B01J23/75B01J23/70B01J23/89B01J37/02B01J37/08B01J37/18C10G2/00
    • B01J23/898B01J21/04B01J23/70B01J23/75B01J23/8472B01J35/1038B01J35/1042B01J37/0205B01J37/0207B01J37/024B01J37/08B01J37/18B01J2523/00C10G2/332C10G2/333B01J2523/31B01J2523/3706B01J2523/55B01J2523/828B01J2523/845
    • A process has been developed for preparing a Fischer-Tropsch catalyst precursor and a Fischer-Tropsch catalyst made from the precursor. The process includes contacting a gamma alumina catalyst support material with a first solution containing a vanadium compound, to obtain a modified catalyst support material. The modified catalyst support material is calcined at a temperature of at least 500° C. The calcined modified catalyst support has a pore volume of at least 0.35 cc/g. The modified catalyst support is less soluble in acid solutions than an equivalent unmodified catalyst support. The modified catalyst support loses no more than 15% of its pore volume when exposed to water vapor. The modified catalyst support is contacted with a second solution which includes a precursor compound of an active cobalt catalyst component to obtain a catalyst precursor. The catalyst precursor is reduced to activate the catalyst precursor to obtain the Fischer-Tropsch catalyst. The catalyst has enhanced hydrothermal stability as measured by losing no more than 22% of its pore volume when exposed to water vapor.
    • 已经开发了制备费 - 托催化剂前体和由前体制备的费 - 托催化剂的方法。 该方法包括使γ氧化铝催化剂载体材料与含有钒化合物的第一溶液接触,以获得改性的催化剂载体材料。 改性的催化剂载体材料在至少500℃的温度下煅烧。煅烧的改性催化剂载体的孔体积至少为0.35cc / g。 改性的催化剂载体在酸溶液中比相当的未改性的催化剂载体更难溶解。 当暴露于水蒸气时,改性催化剂载体的孔隙体积减少不超过15%。 将改性的催化剂载体与包含活性钴催化剂组分的前体化合物的第二溶液接触以获得催化剂前体。 催化剂前体被还原以活化催化剂前体以获得费 - 托催化剂。 催化剂具有增强的水热稳定性,当暴露于水蒸汽时,其通过损失不超过其孔体积的22%来测量。
    • 6. 发明授权
    • Process and system for blending synthetic and natural crude oils derived from offshore produced fluids
    • 用于混合源自海上生产流体的合成和天然原油的方法和系统
    • US08753500B2
    • 2014-06-17
    • US12974337
    • 2010-12-21
    • Charles Leonard KibbyDennis J. O'RearRobert James SaxtonTapan K. DasKandaswamy Jothimurugesan
    • Charles Leonard KibbyDennis J. O'RearRobert James SaxtonTapan K. DasKandaswamy Jothimurugesan
    • C10B57/02
    • C10G2/34C10G2/32C10G2/332C10G2/333C10G2/341C10G2/344C10G5/06C10G45/02C10G45/58C10G47/00C10G49/00C10G2300/1022C10G2300/1033C10G2300/302C10G2300/4062
    • A process and system are described for the processing of gas associated with crude oil production, i.e. associated gas. A separation complex is used to separate produced fluids produced from a hydrocarbon reservoir into crude oil, liquefied petroleum gas, water, and natural gas. At least a portion of the natural gas is converted into synthesis gas in a synthesis gas generator. A combination of a synthesis gas conversion catalysts and hydroconversion catalysts are used in a synthesis gas reactor to convert the synthesis gas into a liquid effluent stream containing liquefied petroleum gas and a synthetic crude oil. The liquefied petroleum gas and synthetic crude oil from the synthesis gas reactor is sent to the separation complex. Liquefied petroleum gas is separated both from the synthetic crude oil and a natural crude oil obtained from the produced fluids. The system and process permits synthetic crude oil to be blended with the natural crude oil producing a blended stabilized crude oil having 2 wt % or more of the synthetic crude oil and with a pour point of 60° C. or less. Use of a common facility for separation operations on the natural crude oil and synthetic crude oil thus reduces capital costs and allows converted associated gases to be shipped with the natural crude oil on a conventional crude oil tanker.
    • 描述了用于处理与原油生产相关的气体,即相关气体的方法和系统。 分离复合物用于将由烃储层产生的产物分离成原油,液化石油气,水和天然气。 至少一部分天然气在合成气发生器中被转化为合成气。 在合成气反应器中使用合成气转化催化剂和加氢转化催化剂的组合,以将合成气转化为含有液化石油气和合成原油的液体流出物流。 将来自合成气反应器的液化石油气和合成原油送至分离复合物。 液化石油气与合成原油和从生产的流体获得的天然原油分离。 该系统和方法允许合成原油与天然原油混合,产生具有2重量%或更多的合成原油并且倾点为60℃或更低的混合稳定的原油。 在天然原油和合成原油上使用通用设施进行分离操作,从而降低资本成本,并允许转换的相关气体与常规原油油轮上的天然原油一起运输。
    • 7. 发明申请
    • PROCESS AND SYSTEM FOR BLENDING SYNTHETIC AND NATURAL CRUDE OILS DERIVED FROM OFFSHORE PRODUCED FLUIDS
    • 从海洋生产的流体中混合合成和自然原油的方法和系统
    • US20110240288A1
    • 2011-10-06
    • US12974337
    • 2010-12-21
    • Charles Leonard KibbyDennis J. O'RearRobert James SaxtonTapan K. DasKandaswamy Jothimurugesan
    • Charles Leonard KibbyDennis J. O'RearRobert James SaxtonTapan K. DasKandaswamy Jothimurugesan
    • E21B43/00
    • C10G2/34C10G2/32C10G2/332C10G2/333C10G2/341C10G2/344C10G5/06C10G45/02C10G45/58C10G47/00C10G49/00C10G2300/1022C10G2300/1033C10G2300/302C10G2300/4062
    • A process and system are described for the processing of gas associated with crude oil production, i.e. associated gas. A separation complex is used to separate produced fluids produced from a hydrocarbon reservoir into crude oil, liquefied petroleum gas, water, and natural gas. At least a portion of the natural gas is converted into synthesis gas in a synthesis gas generator. A combination of a synthesis gas conversion catalysts and hydroconversion catalysts are used in a synthesis gas reactor to convert the synthesis gas into a liquid effluent stream containing liquefied petroleum gas and a synthetic crude oil. The liquefied petroleum gas and synthetic crude oil from the synthesis gas reactor is sent to the separation complex. Liquefied petroleum gas is separated both from the synthetic crude oil and a natural crude oil obtained from the produced fluids. The system and process permits synthetic crude oil to be blended with the natural crude oil producing a blended stabilized crude oil having 2 wt % or more of the synthetic crude oil and with a pour point of 60° C. or less. Use of a common facility for separation operations on the natural crude oil and synthetic crude oil thus reduces capital costs and allows converted associated gases to be shipped with the natural crude oil on a conventional crude oil tanker.
    • 描述了用于处理与原油生产相关的气体,即相关气体的方法和系统。 分离复合物用于将由烃储层产生的产物分离成原油,液化石油气,水和天然气。 至少一部分天然气在合成气发生器中被转化为合成气。 在合成气反应器中使用合成气转化催化剂和加氢转化催化剂的组合,以将合成气转化为含有液化石油气和合成原油的液体流出物流。 将来自合成气反应器的液化石油气和合成原油送至分离复合物。 液化石油气与合成原油和从生产的流体获得的天然原油分离。 该系统和方法允许合成原油与天然原油混合,产生具有2重量%或更多的合成原油并且倾点为60℃或更低的混合稳定的原油。 在天然原油和合成原油上使用通用设施进行分离操作,从而降低资本成本,并允许转换的相关气体与常规原油油轮上的天然原油一起运输。