公开(公告)号：US08714248B2

公开(公告)日：2014-05-06

申请号：US12868188

申请日：2010-08-25

Applicant: Trevor Hughes ,  Evgeny Barmatov ,  Jill Geddes ,  Michael Fuller ,  Bruno Drochon ,  Sergey Makarychev-Mikhailov

Inventor： Trevor Hughes ,  Evgeny Barmatov ,  Jill Geddes ,  Michael Fuller ,  Bruno Drochon ,  Sergey Makarychev-Mikhailov

IPC: E21B43/04 ,  E21B43/27

CPC classification number: C09K8/80

Abstract: Gravel packing a region of a wellbore is carried out using one or more hydrophobically-surfaced particulate materials as the gravel. Placing the gravel pack is carried out using an aqueous carrier liquid, with hydrophobic particulate material suspended in the liquid and a gas to wet the surface of the particles and bind them together as agglomerates. The presence of gas lowers the density of the agglomerates relative to the particulate material in them, so that transport of the particulates is improved. The invention enables the placing of longer, uniformly packed, gravel packs, especially in horizontal and near horizontal wellbores.

Abstract translation: 使用一个或多个疏水表面的颗粒材料作为砾石进行用于钻井的区域的砾石。 砾石包装的放置使用水性载体液体进行，其中悬浮在液体中的疏水性颗粒物质和气体以润湿颗粒表面并将其作为附聚物结合在一起。 气体的存在降低了聚集体相对于其中的颗粒材料的密度，从而提高了颗粒的输送。 本发明使得能够放置较长的均匀包装的砾石包装，特别是在水平和近水平井筒中。

公开(公告)号：US20140076815A1

公开(公告)日：2014-03-20

申请号：US14117835

申请日：2012-05-14

Applicant: Khooi Yeei Tan ,  Trevor Hughes ,  Wilhelm Huck ,  Michaela Nagl

Inventor： Khooi Yeei Tan ,  Trevor Hughes ,  Wilhelm Huck ,  Michaela Nagl

IPC: C02F1/28

CPC classification number: C02F1/288 ,  B01D17/0202

Abstract: A treatment process for an aqueous phase which contains oil droplets, possibly of 10-50 nm diameter, in aqueous flow from a hydrocyclone separator, comprises bringing the water into contact with a surface subdivided into areas of differing surface energy and affinity for oil and such that when the surface is submerged in an aqueous phase, oil droplets adhere to it with an apparent contact angle in a range from 90 to 150 degrees. Areas of the surface may reduce their affinity for oil in response to an external stimulus causing controlled release of droplets adhering to the surface. The process may be used to remove oil droplets from water produced by an oil or gas well, after downhole oil water separation or after production at a at a well head, or used to coalesce droplets in such water to a larger size to enable conventional separation.

Abstract translation: 含水相的处理方法，其水分可能为10-50nm，水力旋流分离器的水流中包括使水与表面细分的表面接触，表面能和对油的亲和性等 当表面浸没在水相中时，油滴粘附到其上，其表观接触角在90至150度的范围内。 表面的区域可能会降低其对油的亲合力，以响应外部刺激，从而控制释放附着在表面上的液滴。 该方法可以用于从油井或气井产生的水中，在井下油水分离之后或在井口产生后除去油滴，或者用于将这种水中的液滴聚结成更大的尺寸以使常规分离 。

公开(公告)号：US20120048557A1

公开(公告)日：2012-03-01

申请号：US12868165

申请日：2010-08-25

Applicant: Trevor Hughes ,  Evgeny Barmatov ,  Jill Geddes ,  Michael Fuller ,  Bruno Drochon ,  Sergey Makarychev-Mikhailov

Inventor： Trevor Hughes ,  Evgeny Barmatov ,  Jill Geddes ,  Michael Fuller ,  Bruno Drochon ,  Sergey Makarychev-Mikhailov

IPC: E21B43/26 ,  C09K8/60 ,  E21B43/00

CPC classification number: C09K8/665 ,  C09K8/70 ,  C09K8/92 ,  E21B43/267

Abstract: A wellbore fluid is an aqueous carrier liquid with first and second hydrophobic particulate materials suspended therein. The first hydrophobic particles have a higher specific gravity than the second hydrophobic particles and the fluid also comprises a gas to wet the surface of the particles and bind them together as agglomerates. The fluid may be a fracturing fluid or gravel packing fluid and the first particulate material may be proppant or gravel. The lighter second particulate material and the gas both reduce the density of the agglomerates which form so that they settle more slowly from the fluid, or are buoyant and do not settle. This facilitates transport and placement in a hydraulic fracture or gravel pack. One application of this is when fracturing a gas-shale with slickwater. The benefit of reduced settling is better placement of proppant so that a greater amount of the fracture is propped open.

Abstract translation: 井筒流体是其中悬浮有第一和第二疏水性颗粒材料的水性载体液体。 第一疏水性颗粒具有比第二疏水性颗粒更高的比重，并且流体还包括用于润湿颗粒表面的气体并将其作为附聚物结合在一起。 流体可以是压裂流体或砾石填充流体，并且第一颗粒材料可以是支撑剂或砾石。 较轻的第二颗粒材料和气体都降低了附聚物的密度，使得它们从流体更缓慢地沉降，或者浮力并且不沉降。 这有助于运输和放置在水力裂缝或砾石包装中。 这种情况的一个应用是用瓦斯页岩压裂瓦斯页岩。 减少沉降的好处是支撑剂的更好的放置，使得更大量的裂缝被支撑开放。

公开(公告)号：US20110172924A1

公开(公告)日：2011-07-14

申请号：US12988869

申请日：2009-04-23

Applicant: Trevor Hughes ,  Gary Tustin ,  Alexander Wilson ,  Carlos Abad ,  Shiyi Wang

Inventor： Trevor Hughes ,  Gary Tustin ,  Alexander Wilson ,  Carlos Abad ,  Shiyi Wang

IPC: G06F19/00

CPC classification number: E21B43/164 ,  C09K8/594 ,  Y02P20/544

Abstract: The magnitude of asphaltic precipitation when injecting a viscosity reducing diluent into a reservoir formation, notably to assist oil recovery therefrom, is forecast by (i) determining a relationship between asphaltic precipitation and a solubility parameter for the diluted oil, and then (ii) utilizing that relationship to forecast the magnitude of asphaltic precipitation when injecting a predetermined viscosity reducing diluent into the formation. Making this forecast may be followed by injecting a viscosity reducing diluent into the formation to assist oil recovery. The diluent may in particular be supercritical carbon dioxide or other asphaltene precipitant mixed with a more polar material in proportions designed by forecasting asphaltic precipitation by candidate materials in possible proportions.

Abstract translation: 通过（i）确定沥青沉淀与稀释油的溶解度参数之间的关系，然后（ii）利用（i）确定沥青沉淀与稀释油的溶解度参数之间的关系，预测将注入减粘稀释剂注入储层形成中的沥青沉淀的大小， 该关系可以预测在将预定的减粘稀释剂注入到地层中时沥青沉淀的大小。 进行此预测之后，可以将降粘稀释剂注入地层以辅助石油回收。 稀释剂可以特别是超临界二氧化碳或其他沥青质沉淀剂与较极性的材料混合，其比例是以可能的比例预测候选材料的沥青沉淀所设计的比例。

公开(公告)号：US07858561B2

公开(公告)日：2010-12-28

申请号：US11794923

申请日：2006-01-11

Applicant: Carlos Abad ,  Kay Robinson ,  Trevor Hughes

Inventor： Carlos Abad ,  Kay Robinson ,  Trevor Hughes

IPC: C09K8/60 ,  C09K8/22 ,  E21B43/26

CPC classification number: C09K8/68 ,  C09K8/12 ,  C09K8/206 ,  C09K8/508 ,  C09K8/514 ,  C09K8/88 ,  C09K8/90

Abstract: A viscosifying agent for wellbore fluids is described including a polymer polymerized using at least two pre-polymers “A” and “B”, the polymer being capable of essentially fully degrading into soluble fragments after the initiation of a breaking process.

Abstract translation: 描述了用于井筒流体的增稠剂，其包括使用至少两种预聚物“A”和“B”聚合的聚合物，该聚合物在断裂过程开始之后能够基本上完全降解成可溶性碎片。

公开(公告)号：US20100307745A1

公开(公告)日：2010-12-09

申请号：US12477502

申请日：2009-06-03

Applicant: Valerie Lafitte ,  Trevor Hughes ,  Slaheddine Kefi ,  Mathew Miller ,  Gary Tustin ,  Shiyi Wang

Inventor： Valerie Lafitte ,  Trevor Hughes ,  Slaheddine Kefi ,  Mathew Miller ,  Gary Tustin ,  Shiyi Wang

IPC: E21B47/00

CPC classification number: C09K8/62 ,  E21B43/26 ,  E21B47/1015

Abstract: A process of making observations of a subterranean reservoir penetrated by a wellbore uses distinguishable sets of tracer particles and comprises steps of: (i) delivering a plurality of sets of tracer particles to respective subterranean locations via the wellbore, the particles in each set comprising a tracer substance which distinguishes that set form the other sets; (ii) causing or allowing the tracer substances to flow out from the tracer particles whilst the particles are at the respective subterranean locations; (iii) causing or allowing production of fluid out of said reservoir via the wellbore; and (iv) detecting the presence or absence of the tracer substances in the produced fluid. The tracer substances are sufficiently distinguishable from each other to enable a tracer substance detected in the produced fluid to identify the set of tracer particles from which it has come and hence identify the location from which it has come. The process may be used in conjunction with hydraulic fracturing, placing sets of particles at different locations within a fracture and/or in different fractures extending from a single wellbore.

Abstract translation: 对井眼穿透的地下储层进行观测的过程使用可区分的示踪剂颗粒组，并且包括以下步骤：（i）经由井孔将多组示踪剂颗粒递送到相应的地下位置，每组中的颗粒包括 跟踪物质，其区别于其他集合; （ii）当所述颗粒在相应的地下位置时，导致或允许示踪物质从示踪剂颗粒流出; （iii）导致或允许通过井筒从所述储存器中产生流体; 和（iv）检测产生的流体中示踪物质的存在或不存在。 示踪剂物质彼此充分区分，以使在所产生的流体中检测到的示踪物质能够识别来自其​​的示踪剂颗粒组，并因此识别出来的位置。 该方法可以与水力压裂结合使用，将一组颗粒放置在裂缝内的不同位置和/或从单个井眼延伸的不同裂缝中。

公开(公告)号：US20070095534A1

公开(公告)日：2007-05-03

申请号：US10574298

申请日：2004-10-08

Applicant: Trevor Hughes

Inventor： Trevor Hughes

IPC: E21B33/13

CPC classification number: C09K8/502 ,  C09K8/504 ,  C09K8/506

Abstract: A well bore treatment fluid and methods for selectively reducing the outflow of water during recovery of hydrocarbons from a hydrocarbon reservoir in a formation are described, wherein fluid contains 5 to 40 weight per cent of a dissolved compound based on α-branched carboxylic acid, derivatives or co-polymers thereof, and capable of forming a precipitate that is substantially soluble in hydrocarbons and substantially insoluble in water.

Abstract translation: 描述了井筒处理流体和用于在从地层中的烃储层回收烃期间选择性地减少水流出的方法，其中流体含有基于α-支链羧酸的溶解化合物的5-40重量％，衍生物 或其共聚物，并且能够形成基本上可溶于烃并基本上不溶于水的沉淀物。

公开(公告)号：US20060151171A1

公开(公告)日：2006-07-13

申请号：US10524364

申请日：2003-08-20

Applicant: Stephen Davies ,  Trevor Hughes ,  Henk Lekkerkerker ,  Michael Bruggen ,  Arnaud Der Beken

Inventor： Stephen Davies ,  Trevor Hughes ,  Henk Lekkerkerker ,  Michael Bruggen ,  Arnaud Der Beken

IPC: E21B33/138

CPC classification number: C09K8/572 ,  C09K8/5045

Abstract: The invention concerns an aqueous delayed-gelation solution and a method of selectively placing a delayed-gelation solution in a hydrocarbon well. According to the invention, the aqueous delayed-gelation solution a dissolved metal salt which, in use, hydrolyses to form a gel, wherein the solution contains suspended inorganic particles and the method comprises the steps of providing the aqueous delayed-gelation solution, and—injecting the solution into the hydrocarbon well, whereby the suspended inorganic particles reduce or block the flow of the delayed-gelation solution to relatively low permeability formation zones thereby selectively placing the solution in a relatively high permeability formation zone. Applications of the invention relate to the treatment of hydrocarbon wells.

Abstract translation: 本发明涉及一种水性延迟凝胶化溶液和选择性地将延迟凝胶化溶液置于烃井中的方法。 根据本发明，水性延迟凝胶溶液是溶解的金属盐，其在使用中水解形成凝胶，其中溶液含有悬浮的无机颗粒，并且该方法包括以下步骤：提供水性延迟凝胶溶液，和 - 将溶液注入到烃阱中，由此悬浮的无机颗粒减少或阻止延迟凝胶化溶液流向相对低渗透性的形成区域，从而选择性地将溶液置于相对高渗透性的形成区域中。 本发明的应用涉及烃井的处理。

公开(公告)号：US20050124525A1

公开(公告)日：2005-06-09

申请号：US10993985

申请日：2004-11-19

Applicant: Robert Hartshorne ,  Trevor Hughes ,  Timothy Jones ,  Gary Tustin

Inventor： Robert Hartshorne ,  Trevor Hughes ,  Timothy Jones ,  Gary Tustin

IPC: B01F17/00 ,  C07C309/15 ,  C07C309/17 ,  C09K8/035 ,  C09K8/68 ,  C11D17/00

CPC classification number: C07C309/15 ,  B01F17/0057 ,  C07C309/17 ,  C09K8/035 ,  C09K8/68 ,  C09K2208/30

Abstract: An anionic viscoelastic surfactant with sulphonate head group of formula R—X—(CR5CR6)m—SO3−, in which groups R, X, R5, R6 and m are as defined, particularly for use as a wellbore service fluid.

Abstract translation: 具有下式的磺酸盐头基的阴离子粘弹性表面活性剂：式RX-（CR 5 C 6 -C 6）-SO 3 - 其中基团R，X，R 5，R 6和m如所定义，特别是用作井筒服务流体。

公开(公告)号：US5161409A

公开(公告)日：1992-11-10

申请号：US601489

申请日：1990-10-22

Applicant: Trevor Hughes ,  Timothy Jones

Inventor： Trevor Hughes ,  Timothy Jones

IPC: E21B21/08 ,  E21B49/00 ,  G01N15/06 ,  G01N21/35

CPC classification number: E21B49/005 ,  E21B21/08 ,  G01N15/06 ,  G01N2021/3595

Abstract: A method of quantitative analysis of solids carrying drilling mud and removed from a drilling fluid circulating in a wellbore being drilled is described. The method comprises the steps of: sampling the removed solids, and analyzing the sample to determine the density of the solids and their weight fraction, drying a known weight of the sample to constant weight so as to obtain the solids in the form of dry solids, and analysis of the latter by an infrared spectroscopy technique. The concentration of the substances in the removed solids is then determined. The method can be applied to the control of the drilling operation by monitoring the quantity of products added to the drilling fluid, such as barite and polymers, or a product coming from the borehole wall or the underground formation being drilled. The invention also applies to the control of the working condition of the mud solids equipment.