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    • 1. 发明申请
    • INHIBITING RESERVOIR SOURING USING A TREATED INJECTION WATER
    • 使用处理的注射用水抑制储存
    • WO2007106691A3
    • 2008-04-17
    • PCT/US2007063486
    • 2007-03-07
    • MARATHON OIL COMCELHINEY JOHN E
    • MCELHINEY JOHN E
    • E21B43/16E21B43/26
    • E21B43/20
    • A process for inhibiting souring in a hydrocarbon reservoir provides a feed water including a plurality of phosphorous constituents and having an elevated phosphorous concentration. At least some of the phosphorous constituents are removed from the feed water to produce a treated injection water, which has a reduced phosphorous concentration less than the elevated phosphorous concentration. The treated injection water is injected into the reservoir via a first well and the hydrocarbon is produced from the reservoir via a second well. The process inhibits souring in the reservoir insofar as the treated injection water results in a lower level of souring in the reservoir over time than if the feed water had been injected into the reservoir.
    • 在烃储层中抑制酸化的方法提供了包含多个磷组分并且具有升高的磷浓度的给水。 从给水中除去至少一些磷组分以产生经处理的注射水,其具有小于磷浓度的降低的磷浓度。 经处理的注入水通过第一井注入储存器中,并且烃通过第二井由储存器产生。 只要处理的注射水导致储存器中的酸化水平随着时间的推移而降低,如果给水已经注入到储存器中,则该方法抑制储存器中的酸化。
    • 5. 发明申请
    • TRANSPORT OF A WET GAS THROUGH A SUBSEA PIPELINE
    • 通过一个SUBSEA管道输送的气体
    • WO02101277A3
    • 2003-03-13
    • PCT/US0217659
    • 2002-06-05
    • MARATHON OIL CO
    • WAYCUILIS JOHN JYORK STEPHEN D
    • F17D1/00B01J8/00B01J8/18B01J8/38F16L55/165F17C11/00F28D13/00F17D1/04F17D3/01
    • B01J8/007B01J8/1836B01J8/388B01J2208/00115B01J2208/0015F17C11/007F28D13/00
    • A transport process for a wet gas employs a subsea heat exchanger having first and second flowpaths separated by a heat transfer surface. A cooler heat transfer medium is conveyed through the first flowpath in a liquid phase while a warmer hydrocarbon stream having a gaseous hydrocarbon phase and a liquid aqueous phase is conveyed through the second flowpath, which cools the hydrocarbon stream and heats the heat transfer medium. The heat transfer medium is converted by heating to a vapor phase, which is conveyed to a passive condenser associated with the subsea heat exchanger. The ambient temperature of the sea water submersing the condenser cools the heat transfer medium and restores it to the liquid phase for reuse in the heat exchanger. A portion of the hydrocarbon stream is converted by cooling to a plurality of solid gas hydrate particles while a solid particle medium entrained within the hydrocarbon stream prevents the buil-up of gas hydrate particles in the second flowpath. The gas hydrate particles mix with the remaining liquid phase components of the hydrocarbon stream to form a gas hydrate slurry, which is withdrawn from the second flowpath and conveyed through a subsea transport pipeline.
    • 用于湿气体的运输方法采用具有由传热表面分开的第一和第二流路的海底热交换器。 较冷的传热介质以液相方式通过第一流路输送,而具有气态烃相和液态水相的较热烃流被输送通过第二流路,该第二流路冷却烃流并加热传热介质。 传热介质通过加热转化为气相,将其输送到与海底热交换器相关联的被动冷凝器。 浸入冷凝器的海水的环境温度冷却传热介质并将其还原到液相中以在热交换器中重新使用。 烃流的一部分通过冷却转化为多个固体气体水合物颗粒,而夹带在烃流中的固体颗粒介质阻止第二流路中的气体水合物颗粒的填充。 气体水合物颗粒与烃流的剩余液相组分混合以形成气体水合物浆料,其从第二流动路径排出并通过海底输送管线输送。
    • 9. 发明申请
    • METHOD AND SYSTEM FOR PRODUCING GAS AND LIQUID IN A SUBTERRANEAN WELL
    • 在地下水中生产气体和液体的方法和系统
    • WO2005124101A3
    • 2006-07-27
    • PCT/US2005020564
    • 2005-06-13
    • MARATHON OIL COSMITH THOMAS BPRESTON YALE M
    • SMITH THOMAS BPRESTON YALE M
    • E21B43/38E21B21/06
    • E21B43/38E21B43/385
    • A method for producing a gas and a liquid in a subterranean well includes the step directing a gas flow in a well annulus through one or more baffle plates to separate at least some of the liquid from the gas. The method can also include the steps of directing the separated liquid down the annulus towards a producing formation of the well, dehydrating the gas flow proximate to a surface of the well, and then directing the dehydrated gas flow to the surface. A system for performing the method includes a set of baffle plates located proximate to the producing formation configured to provide a tortuous path for the gas flow through the annulus, and a single baffle plate located proximate to the surface configured to dehydrate the gas flow. In addition to separating the liquid from the gas flow, the set of baffle plates maintains a single phase wet gas above the baffle plates, and a liquid phase below the baffle plates.
    • 一种用于在地下井中产生气体和液体的方法包括将井环中的气流引导通过一个或多个挡板以将至少一些液体与气体分离的步骤。 该方法还可以包括以下步骤:将分离的液体向下引导到井的生产地层,使靠近井的表面的气流脱水,然后将脱水气流引导到表面。 用于执行该方法的系统包括位于生产地层附近的一组挡板,其被配置为提供通过环空的气流的曲折路径,以及靠近被配置为使气流脱水的表面的单个挡板。 除了从气流中分离液体之外,该组挡板在挡板上方保持单相湿气,并在挡板下方保持液相。
    • 10. 发明申请
    • BIODESULFURIZATION OF HYDROCARBONS
    • 烃类的生物脱硫
    • WO03042331A3
    • 2003-07-24
    • PCT/US0236160
    • 2002-11-12
    • MARATHON OIL CO
    • PLUMMER MARK A
    • C10G45/04C10G32/00
    • C10G45/04
    • A process for converting organic sulfur compounds contained in liquid hydrocarbons to elemental sulfur. The liquid hydrocarbons are solubilized in an organic solvent and reacted in the presence of a biocatalyst and hydrogen. The organic solvent is a nucleophilic solvent having a pKa greater than about 2, an electrophilic solvent having a pKa more negative than about -2, or mixtures thereof. The biocatalyst may be supported on a Lewis acid. Elemental sulfur is removed from the liquid hydrocarbons. Liquid hydrocarbons treated in accordance with this process have significantly reduced concentrations of organic sulfur compounds and thus reduced viscosity.
    • 一种将液态烃中所含的有机硫化合物转化为元素硫的方法。 液态烃溶解在有机溶剂中并在生物催化剂和氢气存在下反应。 有机溶剂是pKa大于约2的亲核溶剂,pKa大于约-2的亲电子溶剂或其混合物。 生物催化剂可以负载在路易斯酸上。 元素硫从液态烃中除去。 按照这种方法处理的液态烃具有显着降低的有机硫化合物浓度并因此降低了粘度。