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    • 1. 发明授权
    • Method for effective placement of a long life scale inhibitor
    • 有效放置长寿命抑制剂的方法
    • US5377758A
    • 1995-01-03
    • US55594
    • 1993-05-03
    • Eleanor R. FielerJohn HenAlfred R. Jennings, Jr.
    • Eleanor R. FielerJohn HenAlfred R. Jennings, Jr.
    • C09K8/528E21B37/06E21B43/14E21B41/02E21B43/25
    • E21B43/14C09K8/528E21B37/06Y10S166/902
    • A method for placement of a long life scale inhibitor into a formation where variable density scale inhibitors are utilized. A substantially low density non-reactive fluid is loaded into an interval of the formation to be treated. Afterwards, a high density first stage scale inhibitor is injected into the interval. Thereafter, a low density spacer fluid is injected into the interval being treated. Next, a second stage high density scale inhibitor having a density lower than the first stage inhibitor is injected into said interval. Subsequently, a low density spacer is injected into the interval. Volume increments are repeatedly injected with decreasing fluid densities until a desired zone has been treated. The entire treatment is then overflushed with an inert high density fluid. Use of this method allows even inhibitor distribution in intervals of a formation with permeability variations thereby preventing scale build-up.
    • 将长寿命抑制剂放置在使用可变密度垢抑制剂的地层中的方法。 将基本上低密度的非反应性流体加载到要处理的地层的间隔中。 之后,将高密度的第一级阻垢剂注入间隔。 此后,将低密度间隔液注入到待处理的间隔中。 接下来,将具有低于第一级抑制剂的密度的第二级高密度阻垢剂注入所述区间。 随后,将低密度间隔物注入间隔区。 体积增量以降低的流体密度重复注入,直到所需的区域被处理。 然后用惰性高密度流体将整个处理过度冲洗。 这种方法的使用允许均匀的抑制剂分布在具有渗透率变化的形成的间隔中,从而防止结垢。
    • 2. 发明授权
    • Use of variable density carrier fluids to improve the efficiency of
scale dissolution
    • 使用可变密度载体流体来提高垢溶解的效率
    • US5366016A
    • 1994-11-22
    • US164861
    • 1993-12-10
    • Eleanor R. FielerAlfred R. Jennings, Jr.James M. Paul
    • Eleanor R. FielerAlfred R. Jennings, Jr.James M. Paul
    • E21B37/00C09K8/528E21B37/06E21B43/28
    • E21B37/06C09K8/528
    • A method to improve the efficiency of scale dissolution in a formation containing multiple productive intervals where variable density liquids are utilized. Initially, a liquid composition sufficient to solubilize an alkaline-earth metal sulfate scale deposit is directed into a wellbore thereby contacting scale in one productive interval of the formation. Thereafter, a second scale solubilizing liquid having a density of about 0.1 wt % less than the first liquid is directed into the wellbore thereby contacting additional perforations and a higher interval. These scale solubilizing liquids with varying densities are allowed to remain in contact with perforations and productive intervals communicating therewith for a time sufficient to solubilize the scale deposit thereby efficiently removing said scale deposit from perforations and productive intervals at two different levels.
    • 一种提高含有可变密度液体的多个生产间隔的地层中的水垢溶解效率的方法。 最初,将足以溶解碱土金属硫酸盐垢沉积物的液体组合物导入井筒,从而在地层的一个生产间隔中接触氧化皮。 此后,具有比第一液体小约0.1重量%的密度的第二比例增溶液被引导到井眼中,从而接触另外的穿孔和更高的间隔。 允许具有不同密度的这些规模增溶液体与穿孔和与其连通的生产间隔保持接触足以溶解垢垢的时间,从而有效地从两个不同水平的穿孔和生产间隔去除鳞屑沉积物。
    • 3. 发明授权
    • Use of thin liquid spacer volumes to enhance hydraulic fracturing
    • 使用薄的液体间隔体积来增强水力压裂
    • US5411091A
    • 1995-05-02
    • US164270
    • 1993-12-09
    • Alfred R. Jennings, Jr.
    • Alfred R. Jennings, Jr.
    • E21B43/267
    • E21B43/267
    • A method for enhanced hydraulic fracturing which comprises injecting a proppant laden fracturing fluid into a formation or reservoir at a rate and pressure sufficient to fracture said formation. Next, a thin spacer fluid is injected into the created fracture. Afterwards, a proppant laden fracturing fluid is injected into the formation at a rate and pressure sufficient to hold the created fracture open which allows proppant to be more evenly distributed throughout the created fracture as proppant falls through the spacer fluid thereby avoiding proppant convection in the created fracture while obtaining substantially improved propping of the fracture.
    • 一种用于增强水力压裂的方法,其包括以足以破坏所述地层的速率和压力将负载剂载荷压裂流体注入地层或储层。 接下来,将薄的间隔液注入到所产生的裂缝中。 之后,将支撑剂负载的压裂液以足以保持所产生的断裂开放的速率和压力注入到地层中,这样支撑剂能够在所产生的裂缝中更均匀地分布,因为支撑剂通过间隔液流动,从而避免了所产生的支撑剂对流 同时获得明显改善的骨折支撑。
    • 7. 发明授权
    • Improved means of fracture acidizing carbonate formations
    • 改进的碳酸盐岩层酸化方法
    • US5238067A
    • 1993-08-24
    • US883999
    • 1992-05-18
    • Alfred R. Jennings, Jr.
    • Alfred R. Jennings, Jr.
    • C09K8/62C09K8/72E21B43/26
    • C09K8/62C09K8/72E21B43/261
    • This invention is directed to a method to improve fracture acidizing in a carbonate containing formation. Initially, the formation is hydraulically fractured so as to form a fracture in the formation in a preferred direction. Thereafter, an acid is directed into the fracture so as to etch the fracture's face and create channels therein. Afterwards, a viscous fluid is directed into the fracture which fluid contains a material sufficient to serve as a diverter and prevent growth in the existing fracture. Once the diverting material is in place, hydraulic fracturing is again conducted within the existing fracture whereupon fracturing forces are directed away from the diverter so as to form a branched fracture to contact hydrocarbonaceous vugs in the formation. The steps of fracturing acidizing, and diverting are continued until a vuggy area in the formation has been interconnected with the fracture system.
    • 本发明涉及一种改善含碳酸盐岩层中断裂酸化的方法。 最初,地层是水力断裂的,以便在优选的方向上在地层中形成裂缝。 此后,将酸引入裂缝中,以便蚀刻裂缝的面并在其中产生通道。 之后,将粘性流体引入裂缝中,该流体包含足以用作分流器的材料,并防止现有裂缝中的生长。 一旦转向材料就位,在现有的裂缝中再次进行水力压裂,由此压裂力被引导离开分流器,以便形成分支断裂以接触地层中的含烃孔。 压裂酸化和转移的步骤继续进行,直到地层中的一个疏水区域与裂缝系统相互连接。
    • 8. 发明授权
    • Method of matrix acidizing
    • 基质酸化方法
    • US5207778A
    • 1993-05-04
    • US782192
    • 1991-10-24
    • Alfred R. Jennings, Jr.
    • Alfred R. Jennings, Jr.
    • C09K8/72E21B43/26
    • E21B43/261C09K8/74C09K2208/24C09K2208/26
    • This invention is directed to a method to improve matrix acidizing of a carbonate containing formation by taking advantage of wormholes which are created during acidizing. The wormholes are closed with a solidifiable gel which protects them from entry of additional acid. The solidifiable gel is allowed sufficient time to form a solid. After a solid gel is formed, additional acid is directed into the formation where it moves past the wormholes containing the solid gel. Thereafter, an additional volume of solidifiable gel is directed into the formation where it protects any subsequently formed wormholes and diverts the acid further into the formation. An additional volume of acid is directed into the formation and the steps repeated until the formation has been acidized to obtain a desired degree of permeability.
    • 本发明涉及通过利用在酸化期间产生的虫洞来改善含碳酸盐岩层的基质酸化的方法。 虫洞用可凝固的凝胶封闭,可保护其免受额外的酸的侵入。 允许可凝固的凝胶充分时间以形成固体。 在形成固体凝胶之后,另外的酸被引导到地层中,在那里它移动通过含有固体凝胶的虫洞。 此后,将额外体积的可凝固凝胶引导到地层中,其中保护任何后续形成的虫洞并将酸进一步转移到地层中。 将额外体积的酸引导到地层中,并重复这些步骤,直到地层被酸化以获得期望的渗透程度。
    • 9. 发明授权
    • Method for improving sustained solids-free production from heavy oil
reservoirs
    • 改善重油库持续无固体生产的方法
    • US5036918A
    • 1991-08-06
    • US446834
    • 1989-12-06
    • Alfred R. Jennings, Jr.Roger C. Smith
    • Alfred R. Jennings, Jr.Roger C. Smith
    • E21B43/02E21B43/24E21B43/267
    • E21B43/2405E21B43/025E21B43/267
    • A method for controlling formation fines when producing viscous oil from a consolidated or loosely consolidated formation having at least two wells therein. Both wells are perforated and hydraulically fractured at a lower level via a viscous gel fluid having a size and temperature resistant proppant therein. The proppant is of a size sufficient to filter formation fines from the oil. Cyclic steam-flooding and oil production are continued in one well, while the other well is shut-in. Prior to steam break through, the lower perforated intervals are isolated with production packers containing knock-out plugs. A correlatable selected upper interval in both wells is perforated and hydraulic fracturing is repeated. Cyclic steam-flooding and oil production are continued in the upper interval until steam break through occurs. Cyclic steam-flooding is ceased and production strings are directed through the knock-out plugs into the lower interval. Thereafter, steam is directed down the annulus from a first well into a second well in the upper interval, while producing oil from the lower interval. Thereafter, steam is circulated down both wells into the upper formation causing the formation of a "heat chest" and the production of hydrocarbonaceous fluids from the lower interval via the production string.
    • 当从其中具有至少两个孔的固结或松散固结的地层生产粘性油时,控制地层细粉的方法。 两口井均通过其中具有尺寸和耐温支撑剂的粘性凝胶流体在较低的水平上进行水力断裂。 支撑剂的尺寸足以从油中过滤成分。 在一口井中继续循环蒸汽和石油生产,另一口井被关闭。 在蒸汽穿透之前,较低的穿孔间隔与包含敲打塞的生产包装机隔离。 在两个井中相关的选择的上部间隔是穿孔的,并且重复水力压裂。 循环蒸汽驱油和产油继续在上段,直到发生蒸汽破裂。 循环蒸汽停止,生产线通过排出塞子进入较低的间隔。 此后,在上部间隔内将蒸汽从第一井向下引导到第二井中,同时从较低间隔产生油。 此后,蒸汽沿两口井循环进入上部地层,形成“加热箱”,并通过生产管柱从较低间隔产生含烃流体。
    • 10. 发明授权
    • Method for enhancing heavy oil production using hydraulic fracturing
    • 使用水力压裂提高重油生产的方法
    • US5005645A
    • 1991-04-09
    • US446835
    • 1989-12-06
    • Alfred R. Jennings, Jr.Roger C. Smith
    • Alfred R. Jennings, Jr.Roger C. Smith
    • E21B43/24E21B43/26E21B43/267
    • E21B43/267E21B43/24E21B43/261
    • A method for controlling the production of formation fines during the production of heavy oils from a sandstone formation. Hydraulic fracturing is conducted in an interval of the formation using a viscous gel fracturing fluid having a proppant therein. The proppant is sized based on the particle size distribution of the formation fines so as to restrict formation fines movement into the propped fracture. Thereafter, intermittent steam injection is conducted in the formation's productive interval. Hydrocarbon production from the formation is controlled so as to allow formation fines build-up on the fracture face thereby improving the filtration of fines from the heavy oil. After removing a desired amount of hydrocarbonaceous fluids from this productive interval, it is mechanically isolated. Thereafter, the steps are repeated in another productive interval.
    • 一种控制在从砂岩形成的重油生产过程中生成细粉的方法。 使用其中具有支撑剂的粘性凝胶压裂液在成形间隔内进行水力压裂。 支撑剂的尺寸基于地层细粒的粒度分布,以便将成矿细粒运动限制到支撑的裂缝中。 此后,在地层的生产间隔内进行间歇式蒸汽喷射。 控制从地层产生的碳氢化合物,以便在裂缝面上形成细粉,从而改善从重油中过滤细粉。 在从该生产间隔中除去所需量的含烃流体之后,它是机械隔离的。 此后,在另一个生产间隔中重复这些步骤。