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Patent Agency Ranking
1.发明申请Crude oil pre-heat train with improved heat transfer and method of improving heat transfer 失效具有改善传热的原油预热列车和改善传热的方法公开(公告)号:US20090090613A1
公开(公告)日:2009-04-09
申请号:US12232946
申请日:2008-09-26
Applicant: Ian A. Cody , Amar S. Wanni , Robert C. Welch , James E. Feather , Mark A. Greaney , Limin Song , Jasmina Poturovic
Inventor: Ian A. Cody , Amar S. Wanni , Robert C. Welch , James E. Feather , Mark A. Greaney , Limin Song , Jasmina Poturovic
Abstract: Targeted application of anti-fouling mechanisms in a heat exchange system produces higher rates of energy recovery. The anti-fouling mechanisms with high mitigation rates can be deployed at only the hottest portions of a pre-heat train that experience the highest rates of fouling and heat loss. In application, bundles of corrosion resistant smoothed tubes are deployed in the late pre-heat train to significantly reduce the formation of harder deposits. Vibration can be used as an adjunct approach in conjunction with the corrosion resistant, smooth tubes, or deployed alone on existing bundles. The use of high performing, more durable exchangers in select locations justifies the increased cost of these components.
Abstract translation: 防污机构在热交换系统中的目标应用产生更高的能量回收率。 具有高缓解率的防污机制只能部署在经受最高污染和热损失率的预热列车的最热部分。 在应用中,在后期预热火车中部署了耐腐蚀平滑管束,以显着减少较硬沉积物的形成。 振动可以作为辅助方法与耐腐蚀,光滑的管一起使用,或单独部署在现有的束上。 在选择的位置使用高性能,更耐用的交换器证明了这些部件的成本增加。
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公开(公告)号:US07537686B2
公开(公告)日:2009-05-26
申请号:US11127731
申请日:2005-05-12
Applicant: Ramesh Varadaraj , Christopher P. Eppig , Douglas W. Hissong , Robert C. Welch
Inventor: Ramesh Varadaraj , Christopher P. Eppig , Douglas W. Hissong , Robert C. Welch
CPC classification number: C10G9/007 , C10G9/16 , C10G11/00 , C10G29/06 , C10G45/00 , C10G47/00 , C10G47/22 , C10G49/00 , C10G75/04 , C10M135/10 , C10M169/04 , C10M175/0016 , C10M177/00 , C10M2203/1085 , C10M2219/044 , C10N2260/10 , Y10S516/909
Abstract: A method for upgrading heavy oils by contacting the heavy oil with an inhibitor additive and then thermally treating the inhibitor additized heavy oil. The invention also relates to the upgraded product from the inhibitor enhanced thermal treatment process.
Abstract translation: 通过使重油与抑制剂添加剂接触,然后热处理抑制剂添加的重油来提升重油的方法。 本发明还涉及来自抑制剂增强热处理工艺的升级产品。
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公开(公告)号:US07244352B2
公开(公告)日:2007-07-17
申请号:US10359860
申请日:2003-02-07
Applicant: Thomas R. Halbert , Craig A. McKnight , John P. Greeley , Bruce R. Cook , Garland B. Brignac , Mark A. Greaney , Robert C. Welch
Inventor: Thomas R. Halbert , Craig A. McKnight , John P. Greeley , Bruce R. Cook , Garland B. Brignac , Mark A. Greaney , Robert C. Welch
CPC classification number: C10G67/0418 , C10G67/12 , C10L1/02
Abstract: A process for producing a naphtha having a decreased amount of sulfur by selective hydroprocessing a petroleum feedstream comprising cracked naphtha to reduce its sulfur content with minimum loss of octane. The reduced sulfur naphtha stream contains mercaptan sulfur reversion products that are removed preferably by use of an aqueous base solution containing a catalytically effective amount of a phase transfer catalyst.
Abstract translation: 通过选择性加氢处理包含裂化石脑油的石油原料流来制造具有减少硫含量的石脑油的方法,以最小的辛烷值损失降低其硫含量。 还原硫石脑油流含有硫醇硫还原产物,其优选通过使用含有催化有效量的相转移催化剂的碱性水溶液来除去。
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公开(公告)号:US08349267B2
公开(公告)日:2013-01-08
申请号:US12232946
申请日:2008-09-26
Applicant: Ian A Cody , Amar S. Wanni , Robert C. Welch , James E. Feather , Mark A. Greaney , Limin Song , Jasmina Poturovic
Inventor: Ian A Cody , Amar S. Wanni , Robert C. Welch , James E. Feather , Mark A. Greaney , Limin Song , Jasmina Poturovic
IPC: B01J8/00
Abstract: Targeted application of anti-fouling mechanisms in a heat exchange system produces higher rates of energy recovery. The anti-fouling mechanisms with high mitigation rates can be deployed at only the hottest portions of a pre-heat train that experience the highest rates of fouling and heat loss. In application, bundles of corrosion resistant smoothed tubes are deployed in the late pre-heat train to significantly reduce the formation of harder deposits. Vibration can be used as an adjunct approach in conjunction with the corrosion resistant, smooth tubes, or deployed alone on existing bundles. The use of high performing, more durable exchangers in select locations justifies the increased cost of these components.
Abstract translation: 防污机构在热交换系统中的目标应用产生更高的能量回收率。 具有高缓解率的防污机制只能部署在经受最高污染和热损失率的预热列车的最热部分。 在应用中,在后期预热火车中部署了耐腐蚀平滑管束,以显着减少较硬沉积物的形成。 振动可以作为辅助方法与耐腐蚀,光滑的管一起使用,或单独部署在现有的束上。 在选择的位置使用高性能,更耐用的交换器证明了这些部件的成本增加。
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5.发明授权公开(公告)号:US06913688B2
公开(公告)日:2005-07-05
申请号:US10274021
申请日:2002-10-18
Applicant: John C. Coker , Garland B. Brignac , Thomas R. Halbert , John G. Matragrano , Brij Gupta , Robert C. Welch , William E. Winter, Jr.
Inventor: John C. Coker , Garland B. Brignac , Thomas R. Halbert , John G. Matragrano , Brij Gupta , Robert C. Welch , William E. Winter, Jr.
CPC classification number: C10G65/04 , C10G45/08 , C10G2300/202 , C10G2300/207 , C10G2300/301 , C10G2300/4006 , C10G2300/4012 , C10G2400/02 , C10L1/06
Abstract: A process for the selective hydrodesulfurization of olefinic naphtha streams containing a substantial amount of organically bound sulfur and olefins. The olefinic naphtha stream is selectively hydrodesulfurized in a first sulfur removal stage and resulting product stream, which contains hydrogen sulfide and organosulfur is fractionated at a temperature to produce a light fraction containing less than about 100 wppm organically bound sulfur and a heavy fraction containing greater than about 100 wppm organically bound sulfur. The light fraction is stripped of at least a portion ofits hydrogen sulfide and can be collected or passed to gasoline blending. The heavy fraction is passed to a second sulfur removal stage wherein at least a portion of any remaining organically bound sulfur is removed.
Abstract translation: 一种含有大量有机结合的硫和烯烃的烯烃石脑油流选择性加氢脱硫的方法。 烯烃石脑油流在第一个硫去除阶段中选择性加氢脱硫,并在含有硫化氢和有机硫的所得产物流在一定温度下分馏,生成含有少于约100wppm有机结合硫的轻馏分,含有大于 约100wppm有机结合硫。 将轻馏分汽提至少一部分硫化氢,并可收集或通过汽油混合。 将重馏分送至第二硫去除阶段,其中除去至少一部分剩余的有机结合的硫。
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