公开(公告)号：US10421897B2

公开(公告)日：2019-09-24

申请号：US15780152

申请日：2015-11-30

Applicant: SCHLUMBERGER TECHNOLOGY CORPORATION

Inventor： Sergey Sergeevich Skiba ,  Kira Vladimirovna Yudina ,  Maxim Pavlovich Yutkin ,  Bernhard Rudolf Lungwitz ,  Andrey Vladimirovich Yakovlev ,  Mohan Kanaka Raju Panga ,  Konstantin Viktorovich Vidma ,  Alexey Vladimirovich Alekseev ,  Chad Kraemer ,  Geza Horvath Szabo

IPC: E21B43/267 ,  E21B43/04 ,  C09K8/68 ,  C09K8/80 ,  C09K8/88 ,  C09K8/66

Abstract: This method is designed to facilitate the well treatment with the possibilities for non-uniform/heterogeneous proppant placement in the extended and branched fractures produced by hydraulic fracturing.The essence of the method is to inject a proppant-bearing gel into the wellbore drilled into a productive formation. The low-viscosity fracturing fluid is injected into the wellbore together with the gel fluid (simultaneously or in turns). The method also provides for the injection of gas into the proppant-bearing gel and/or the low-viscosity fluid. The gas can be injected upstream of the junction point, at the junction point, or downstream of the junction point of the flows of the proppant-bearing gel and the low-viscosity fluid. The method further provides for the division of the gel fluid into the separate agglomerates with their subsequent injection into the fractures in the subterranean formation to form the proppant structures in the fracture.

公开(公告)号：US20150001384A1

公开(公告)日：2015-01-01

申请号：US14351863

申请日：2012-10-22

Applicant: Schlumberger Technology Corporation

Inventor： Geza Horvath Szabo ,  Huang Zeng ,  Ahmad Billal Sultani

IPC: G01N33/24 ,  G01V8/10 ,  G01N33/28 ,  E21B49/08 ,  G01N21/25

CPC classification number: G01N33/241 ,  E21B49/088 ,  G01N21/01 ,  G01N21/25 ,  G01N33/28 ,  G01N33/2823 ,  G01N2021/8405 ,  G01N2201/068 ,  G01V8/10

Abstract: A system and methodology enables improved quantification of an organic material, e.g. oil, in a sample. The technique comprises adding a substance to a two-phase sample containing the organic material and water. The substance is mixed through the sample until the constituents of the sample are solubilized to create an optically clear mixture. An optical technique is employed with respect to the optically clear mixture to quantitatively analyze the organic material in the sample.

Abstract translation: 系统和方法可以改进有机材料的定量，例如 油，在样品中。 该技术包括向含有有机材料和水的两相样品中加入物质。 将物质通过样品混合，直到样品的成分溶解以产生光学透明的混合物。 使用光学透明混合物的光学技术来定量分析样品中的有机材料。

公开(公告)号：US20170121593A1

公开(公告)日：2017-05-04

申请号：US15318740

申请日：2014-06-30

Applicant: SCHLUMBERGER TECHNOLOGY CORPORATION

Inventor： Danil Sergeyevich Pantsurkin ,  Geza Horvath Szabo ,  Chad Kraemer ,  Mohan Kanaka Raju Panga

IPC: C09K8/80 ,  E21B43/26 ,  E21B43/267 ,  C09K8/62

CPC classification number: C09K8/80 ,  C09K8/62 ,  C09K8/805 ,  C09K2208/04 ,  C09K2208/08 ,  C09K2208/26 ,  E21B43/26 ,  E21B43/267

Abstract: The disclosure claimed herein relates to well systems for various fluids production, in particular, for production of fluids from hydrocarbon-containing formations using hydraulic fracturing process. According to the proposed method, injecting into well of fracturing fluid not containing proppant is performed to form a fracture in the formation, after which fracturing fluid is injected into the wellbore in pulse mode; the pulse mode provides at least one pulse of injecting fracturing fluid containing proppant, and at least one pulse of proppant-free fluid. Also, methods for fluid production and injection are proposed. Methods for fluids production, injection and recovery using hydraulic fracturing method are proposed. The proposed method increase the well lifetime due to reduced fluid flow impact on fracture walls and proppant clusters.

公开(公告)号：US09638016B2

公开(公告)日：2017-05-02

申请号：US14536395

申请日：2014-11-07

Applicant: SCHLUMBERGER TECHNOLOGY CORPORATION

Inventor： Geza Horvath Szabo ,  Mohan Kanaka Raju Panga ,  Sergey Semenov ,  Andrey Yakovlev ,  Maxim Yutkin ,  Karina Bagdasarova

IPC: E21B43/267 ,  C09K8/80 ,  E21B43/04 ,  C09K8/50 ,  C09K8/528

CPC classification number: E21B43/267 ,  C09K8/50 ,  C09K8/528 ,  C09K8/805 ,  E21B43/04

Abstract: A method is provided for treating at least a portion of a subterranean formation. The method includes introducing a treatment fluid including a composite particle, which includes proppant incorporated into or attached to a swellable material and/or swellable materials, into a subterranean formation via a wellbore; and increasing the buoyancy of the composite particle including proppant by either mixing it with a treatment fluid or mixing it with a treatment fluid and triggering the swellable material and/or swellable materials to swell.

公开(公告)号：US20160168443A1

公开(公告)日：2016-06-16

申请号：US14572433

申请日：2014-12-16

Applicant: SCHLUMBERGER TECHNOLOGY CORPORATION

Inventor： Valerie Gisele Helene Lafitte ,  Mohan K.R. Panga ,  Andrey Vladimirovich Yakovlev ,  Geza Horvath Szabo ,  Julia Fernandez Del Valle

IPC: C09K8/10 ,  C09K8/42 ,  C09K8/40 ,  C04B24/10 ,  C09K8/56 ,  C09K8/74 ,  C09K8/68 ,  E21B33/138 ,  C09K8/52

CPC classification number: C09K8/10 ,  C04B20/1018 ,  C04B20/1029 ,  C04B28/02 ,  C04B2111/00008 ,  C09K8/035 ,  C09K8/40 ,  C09K8/52 ,  C09K8/56 ,  C09K8/68 ,  C09K8/74 ,  C09K2208/10 ,  E21B33/138 ,  C04B24/383 ,  C04B14/06 ,  C04B20/008 ,  C04B2103/20 ,  C04B2103/40 ,  C04B2103/46 ,  C04B2103/50

Abstract: Treatment fluids and methods for treating a subterranean formation are disclosed that include introducing a treatment fluid into a subterranean formation, the treatment fluid containing temporarily inactive cellulose nanoparticles.

Abstract translation: 公开了用于处理地下地层的处理流体和方法，其包括将处理流体引入地层，所述处理流体包含暂时不活动的纤维素纳米颗粒。

公开(公告)号：US20150129213A1

公开(公告)日：2015-05-14

申请号：US14536395

申请日：2014-11-07

Applicant: SCHLUMBERGER TECHNOLOGY CORPORATION

Inventor： Geza Horvath Szabo ,  Mohan Kanaka Raju Panga ,  Sergey Semenov ,  Andrey Yakovlev ,  Maxim Yutkin ,  Karina Bagdasarova

IPC: E21B43/267 ,  E21B43/04

CPC classification number: E21B43/267 ,  C09K8/50 ,  C09K8/528 ,  C09K8/805 ,  E21B43/04

Abstract: A method is provided for treating at least a portion of a subterranean formation. The method includes introducing a treatment fluid including a composite particle, which includes proppant incorporated into or attached to a swellable material and/or swellable materials, into a subterranean formation via a wellbore; and increasing the buoyancy of the composite particle including proppant by either mixing it with a treatment fluid or mixing it with a treatment fluid and triggering the swellable material and/or swellable materials to swell.

Abstract translation: 提供了一种处理地下地层的至少一部分的方法。 该方法包括将包含掺入或附着到可溶胀材料和/或可膨胀材料的支撑剂的处理流体经由井筒引入地下地层中; 并且通过将其与处理流体混合或将其与处理流体混合并引发可膨胀材料和/或可溶胀材料膨胀来增加包括支撑剂的复合颗粒的浮力。

公开(公告)号：US20150114837A1

公开(公告)日：2015-04-30

申请号：US14398961

申请日：2013-06-13

Applicant: Schlumberger Technology Corporation

Inventor： Sharath Chandra Mahavadi ,  Geza Horvath Szabo ,  Simon Ivar Andersen

IPC: E21B49/08 ,  G01N27/447

CPC classification number: E21B49/08 ,  E21B49/081 ,  G01N27/44704 ,  G01N27/44717 ,  G01N27/44782 ,  G01N27/44791 ,  G01N2030/8854

Abstract: A method improves the capability for testing a fluid sample, e.g. testing a reservoir sample of hydrocarbon fluid. The methodology comprises positioning a capillary electrophoresis system within an enclosed chamber system. The enclosed chamber system preserves the desired downhole reservoir conditions during testing of the reservoir sample. In some applications, the reservoir sample is divided into a plurality of capillaries of the capillary electrophoresis system to enable testing of the reservoir sample with different types of detectors in one capillary electrophoresis system. The method can also be applied to depressurized reservoir samples.

Abstract translation: 一种方法提高了测试流体样品的能力，例如 测试烃流体的储层样品。 该方法包括将毛细管电泳系统定位在封闭室系统内。 封闭室系统在储层样品测试期间保留了所需的井下储层条件。 在一些应用中，储存器样品被分成毛细管电泳系统的多个毛细管，以使得能够在一个毛细管电泳系统中使用不同类型的检测器来测试储存器样品。 该方法也可应用于减压储层样品。

公开(公告)号：US20150072902A1

公开(公告)日：2015-03-12

申请号：US14542636

申请日：2014-11-16

Applicant: Schlumberger Technology Corporation

Inventor： Valerie Lafitte ,  Jesse C. Lee ,  Simon Gareth James ,  Julia Fernandez Del Valle ,  Andrey Vladimirovich Yakovlev ,  Mohan K.R. Panga ,  Geza Horvath Szabo

IPC: C09K8/00

CPC classification number: C04B28/02 ,  C09K8/035 ,  C09K8/44 ,  C09K2208/10 ,  Y02W30/92 ,  Y02W30/94 ,  C04B14/06 ,  C04B14/104 ,  C04B14/20 ,  C04B14/26 ,  C04B14/308 ,  C04B14/368 ,  C04B18/08 ,  C04B18/146 ,  C04B20/0048 ,  C04B20/008 ,  C04B24/26 ,  C04B24/281 ,  C04B24/383 ,  C04B2103/10 ,  C04B2103/20 ,  C04B2103/408 ,  C04B2103/46 ,  C04B12/04 ,  C04B22/124 ,  C04B24/163 ,  C04B24/2647 ,  C04B38/10 ,  C04B24/06 ,  C04B24/226 ,  C04B2103/50 ,  C04B24/42

Abstract: Treatment fluids and methods for treating a subterranean formation include introducing a treatment fluid into a subterranean formation, the treatment fluid containing a nanocrystalline cellulose. The treatment fluid may be a fracturing fluid, well control fluid, well kill fluid, well cementing fluid, acid fracturing fluid, acid diverting fluid, a stimulation fluid, a sand control fluid, a completion fluid, a wellbore consolidation fluid, a remediation treatment fluid, a spacer fluid, a drilling fluid, a frac-packing fluid, water conformance fluid or a gravel packing fluid.

Abstract translation: 用于处理地下地层的处理流体和方法包括将处理流体引入地下地层，所述处理流体含有纳米晶体纤维素。 处理液可以是压裂液，良好控制流体，良好地消除流体，良好的固井液，酸压裂液，酸转移流体，刺激流体，控制流体，完井液，井眼固结液，修复处理 流体，间隔液，钻井液，压裂填充液，水一致性流体或砾石填充液。

公开(公告)号：US10018590B2

公开(公告)日：2018-07-10

申请号：US13968221

申请日：2013-08-15

Applicant: Schlumberger Technology Corporation

Inventor： Sharath Chandra Mahavadi ,  Geza Horvath Szabo ,  Simon Ivar Andersen

IPC: G01N27/447 ,  E21B49/08

CPC classification number: G01N27/44743 ,  E21B49/087

Abstract: A method of fluid testing includes pressurizing a fluid testing system, disposed at a subterranean location under high pressure compared to a surface pressure, to achieve a desired pressure differential between the high pressure and an internal pressure of the fluid testing system. The fluid testing system includes a capillary electrophoresis system and one or more test fluid reservoirs. The method also includes directing test fluid from the one or more test fluid reservoirs into capillaries to condition the capillaries. The method further includes directing sample fluid into the capillaries for testing while at the subterranean location.

公开(公告)号：US09395348B2

公开(公告)日：2016-07-19

申请号：US14351863

申请日：2012-10-22

Applicant: Schlumberger Technology Corporation

Inventor： Geza Horvath Szabo ,  Huang Zeng ,  Ahmad Billal Sultani

IPC: G01V5/00 ,  G01N33/24 ,  G01N21/25 ,  G01N21/01 ,  G01N33/28 ,  E21B49/08 ,  G01V8/10 ,  G01N21/84

CPC classification number: G01N33/241 ,  E21B49/088 ,  G01N21/01 ,  G01N21/25 ,  G01N33/28 ,  G01N33/2823 ,  G01N2021/8405 ,  G01N2201/068 ,  G01V8/10

Abstract: A system and methodology enables improved quantification of an organic material, e.g. oil, in a sample. The technique comprises adding a substance to a two-phase sample containing the organic material and water. The substance is mixed through the sample until the constituents of the sample are solubilized to create an optically clear mixture. An optical technique is employed with respect to the optically clear mixture to quantitatively analyze the organic material in the sample.

Abstract translation: 系统和方法可以改进有机材料的定量，例如 油，在样品中。 该技术包括向含有有机材料和水的两相样品中加入物质。 将物质通过样品混合，直到样品的成分溶解以产生光学透明的混合物。 使用光学透明混合物的光学技术来定量分析样品中的有机材料。