公开(公告)号：US20240033695A1

公开(公告)日：2024-02-01

申请号：US18484668

申请日：2023-10-11

Applicant: Schlumberger Technology Corporation

Inventor： Rajesh Luharuka ,  Gocha Chochua ,  Hau Nguyen-Phuc Pham ,  Mark Ayyad

IPC: B01F23/53 ,  B01F25/53 ,  B01F25/85 ,  B01F27/192 ,  B01F27/81

CPC classification number: B01F23/53 ,  B01F25/53 ,  B01F25/85 ,  B01F27/192 ,  B01F27/8111

Abstract: A mixer and method for mixing are provided. The mixer includes a housing including a fluid inlet, an additive inlet, and an outlet. The housing defines a mixing chamber in fluid communication with the fluid inlet, the additive inlet, and the outlet. The mixer also includes an impeller disposed in the mixing chamber. When rotated, the impeller pumps fluid through the fluid inlet. The mixer also includes a slinger disposed in the mixing chamber and configured to receive the fluid from the impeller and to receive an additive from the additive inlet. When rotated, the slinger slings the fluid and the additive radially outwards. The mixer further includes a flush line extending between the mixing chamber and the additive inlet. The flush line is receives, from the mixing chamber, a portion of the fluid pumped by the impeller and to deliver the portion of the fluid to the additive inlet.

公开(公告)号：US10970590B2

公开(公告)日：2021-04-06

申请号：US15579355

申请日：2016-06-06

Applicant: SCHLUMBERGER TECHNOLOGY CORPORATION

Inventor： Rajesh Luharuka ,  Ashok Veeraraghavan

IPC: G06K9/46 ,  E21B41/00 ,  G06K9/20 ,  G06K9/00 ,  H04N5/33 ,  E21B43/26 ,  G06K9/62 ,  G08B21/18 ,  H04N7/18 ,  B64C39/02

Abstract: Methods and apparatus are presented herein for detecting an oilfield equipment unit of an oilfield wellsite from a visible image, overlaying the detected oilfield equipment unit of the visible image on a corresponding portion of a thermal image, and generating an alert when a temperature indicated by the corresponding portion of the thermal image is outside of an operational temperature range of the detected oilfield equipment unit. The methods and apparatus presented herein facilitate the monitoring of the health of oilfield equipment units that would otherwise be monitored by numerous sensors disposed about the oilfield wellsite.

公开(公告)号：US10519758B2

公开(公告)日：2019-12-31

申请号：US15256976

申请日：2016-09-06

Applicant: Schlumberger Technology Corporation

Inventor： Jonathan Wun Shiung Chong ,  Lewis Callaway ,  Rajesh Luharuka ,  William Troy Huey ,  Hoang Phi-Dung Vo

IPC: E21B33/13 ,  E21B43/24 ,  E21B36/00 ,  E21B43/267 ,  F28F13/12 ,  F28F27/02 ,  F28D21/00 ,  E21B43/26 ,  F28D15/00 ,  F28F23/02

Abstract: Systems and methods for cooling process equipment are provided. The system includes a process fluid source, and a heat exchanger fluidly coupled with the process equipment and the process fluid source. The heat exchanger is configured to receive a process fluid from the process fluid source and transfer heat from the process equipment to the process fluid. The system also includes a control system fluidly coupled with the heat exchanger. The control system is configured to vary a temperature of the process fluid heated in the heat exchanger. Further, at least a portion of the process fluid heated in the heat exchanger is delivered into a wellbore at a temperature below a boiling point of the process fluid.

公开(公告)号：US09457335B2

公开(公告)日：2016-10-04

申请号：US14536415

申请日：2014-11-07

Applicant: SCHLUMBERGER TECHNOLOGY CORPORATION

Inventor： Hau Pham ,  Rajesh Luharuka

IPC: B01J19/24 ,  E21B41/00 ,  B01J19/18

CPC classification number: B01J19/24 ,  B01F3/12 ,  B01F5/0603 ,  B01F5/0647 ,  B01F13/1016 ,  B01F2003/1285 ,  B01J19/18 ,  B01J19/2445 ,  B01J19/245 ,  B01J19/246 ,  B01J19/248 ,  B01J2219/192 ,  B01J2219/1941 ,  B01J2219/2401 ,  E21B41/00

Abstract: Vessels including an enclosure having an outer perimeter and an interior space, a channel disposed in the interior space, a first port disposed on a surface of the first enclosure at or proximate to a first end of the channel, and a second port disposed on a surface of the first enclosure at or proximate to a second end of the channel, where the channel has a length greater than the shortest distance between the first port and the second port, and where the first port and the second port are in fluid communication with one another. In some cases, the length of the channel is greater than a length of the outer perimeter. Optionally, the vessel may have a second enclosure having an outer perimeter and an interior space with a second channel disposed in the interior space, a third port disposed on a surface of the second enclosure at or proximate to a first end of the second channel, and a fourth port disposed on a surface of the second enclosure at or proximate to a second end of the second channel, where the second port, the third port and fourth port are in fluid communication. In yet some other optional variations, the vessel further includes a plurality of enclosures each having an outer perimeter and an interior space, a channel disposed in the interior space, a port disposed on a surface of the enclosure at or proximate to a first end of the channel, and a port disposed on a surface of the enclosure at or proximate to a second end of the channel, where the channel has a length greater than a shortest distance between the ports, and the second port and the ports disposed on the surface of the plurality of enclosures are in fluid communication. The perimeter shape of the enclosure(s) may be any suitable shape, including, but not limited to, substantially circular, ovate or rectangular.

Abstract translation: 包括具有外周边和内部空间的外壳的容器，设置在内部空间中的通道，设置在第一外壳的表面上的第一端口或位于通道的第一端附近的第一端口，以及设置在第一端口上的第二端口 第一外壳的表面在通道的第二端处或附近，其中通道具有大于第一端口和第二端口之间的最短距离的长度，并且其中第一端口和第二端口与第一端口和第二端口流体连通 另一个。 在一些情况下，通道的长度大于外周长。 可选地，容器可以具有第二外壳，其具有外周边和内部空间，第二通道设置在内部空间中;第三端口，设置在第二外壳的表面上或靠近第二通道的第一端， 以及第四端口，所述第四端口设置在所述第二壳体的表面上或者靠近所述第二通道的第二端，其中所述第二端口，所述第三端口和第四端口处于流体连通状态。 在还有一些可选的变型中，容器还包括多个外壳，每个外壳具有外周边和内部空间，设置在内部空间中的通道，设置在壳体的表面上或靠近第一端的端口 所述通道和设置在所述外壳的表面上的端口处于或接近所述通道的第二端，其中所述通道的长度大于所述端口之间的最短距离，并且所述第二端口和设置在所述表面上的所述端口 多个外壳的流体连通。 外壳的周边形状可以是任何合适的形状，包括但不限于基本圆形，卵形或矩形。

公开(公告)号：US09435175B2

公开(公告)日：2016-09-06

申请号：US14075247

申请日：2013-11-08

Applicant: Schlumberger Technology Corporation

Inventor： Jonathan Wun Shiung Chong ,  Lewis Callaway ,  Rajesh Luharuka ,  William Troy Huey ,  Hoang Phi-Dung Vo

IPC: E21B36/00 ,  E21B33/13 ,  E21B43/267 ,  F28F13/12 ,  F28F27/02 ,  F28D21/00

CPC classification number: E21B43/2405 ,  E21B33/13 ,  E21B36/006 ,  E21B43/26 ,  E21B43/267 ,  F28D15/00 ,  F28D21/00 ,  F28D21/0001 ,  F28F13/12 ,  F28F23/02 ,  F28F27/02 ,  F28F2250/08

Abstract: Systems and methods for cooling process equipment are provided. The system includes a process fluid source, and a heat exchanger fluidly coupled with the process equipment and the process fluid source. The heat exchanger is configured to receive a process fluid from the process fluid source and transfer heat from the process equipment to the process fluid. The system also includes a control system fluidly coupled with the heat exchanger. The control system is configured to vary a temperature of the process fluid heated in the heat exchanger. Further, at least a portion of the process fluid heated in the heat exchanger is delivered into a wellbore at a temperature below a boiling point of the process fluid.

Abstract translation: 提供冷却过程设备的系统和方法。 该系统包括过程流体源和与过程设备和过程流体源流体耦合的热交换器。 热交换器被配置为从过程流体源接收过程流体并将热量从处理设备传递到过程流体。 该系统还包括与热交换器流体耦合的控制系统。 控制系统被配置为改变在热交换器中加热的过程流体的温度。 此外，在热交换器中加热的工艺流体的至少一部分在低于工艺流体沸点的温度下被输送到井筒中。

公开(公告)号：US20160161188A1

公开(公告)日：2016-06-09

申请号：US14561500

申请日：2014-12-05

Applicant: SCHLUMBERGER TECHNOLOGY CORPORATION

Inventor： Jonathan Wun Shiung Chong ,  Rod William Shampine ,  Garud Bindiganavale Sridhar ,  Christopher Joseph Decker ,  Gregoire Omont ,  Rajesh Luharuka

IPC: F28D1/02 ,  E21B43/26 ,  F28D1/04

CPC classification number: F28D1/0213 ,  E21B43/26 ,  F28D1/0226 ,  F28D1/0408 ,  F28D20/00 ,  F28D2020/0026 ,  Y02E60/142

Abstract: A technique facilitates removal of heat. The technique involves moving a process fluid through a buffer tank which is combined with a heat exchange system. The heat exchange system includes a conduit carrying a coolant fluid which removes excess heat from a heat source. The conduit is routed to the buffer tank so that the cooler process fluid moving through the buffer tank is able to remove heat from the coolant fluid before it is routed back to the heat source for continued heat removal. In a well application, for example, a heat source, e.g. an electric motor, may be located on a transport vehicle and cooled by the coolant fluid. The heat transferred to the coolant fluid from the heat source is removed by routing the coolant fluid through the conduit associated with the buffer tank. This enables the cooler process fluid in the buffer tank to be used in lowering the temperature of the coolant fluid.

Abstract translation: 一种技术有助于去除热量。 该技术涉及将过程流体移动通过与热交换系统组合的缓冲罐。 热交换系统包括承载冷却剂流体的管道，其从热源中除去多余的热量。 导管被引导到缓冲罐，使得通过缓冲罐移动的较冷的过程流体能够在其被引导回热源之前从冷却剂流体中除去热量以便继续除热。 在井应用中，例如，热源，例如， 电动机可以位于运输车辆上并且被冷却剂流体冷却。 通过将冷却剂流体通过与缓冲罐相关联的管道布置来去除从热源传递到冷却剂流体的热量。 这使得缓冲罐中的较冷的工艺流体能够用于降低冷却剂流体的温度。

公开(公告)号：US10544343B2

公开(公告)日：2020-01-28

申请号：US15308255

申请日：2015-05-04

Applicant: Schlumberger Technology Corporation

Inventor： Avinash Ramesh ,  Garud Bindiganavale Sridhar ,  Jonathan Wun Shiung Chong ,  Rajesh Luharuka ,  Lewis Callaway ,  Gregoire Omont ,  Ivan Alaniz

IPC: C09K8/02 ,  E21B21/06 ,  C09K8/42 ,  C09K8/62 ,  E21B41/00 ,  G01N11/02 ,  E21B33/13 ,  E21B43/26

Abstract: Disclosed herein is a method for viscosity measurement of non-Newtonian fluid for in-line measurement and process control. The process involves mixing additives to a base fluid to form the non-Newtonian fluid. The non-Newtonian fluid is fed to an in-line viscosity measurement device to obtain a rheological measurement. The addition of the additives to the base fluid is then adjusted based on the rheological measurement. A system for accomplishing the same is also disclosed.

公开(公告)号：US10514301B2

公开(公告)日：2019-12-24

申请号：US15316208

申请日：2015-06-05

Applicant: SCHLUMBERGER TECHNOLOGY CORPORATION

Inventor： Rajesh Luharuka ,  Amit Bhatia ,  Garud Bindiganavale Sridhar ,  Jonathan Wun Shiung Chong

IPC: G01J5/00 ,  G01J5/02 ,  E21B41/00 ,  E21B44/00 ,  G01J5/48 ,  G05B19/042

Abstract: A method for monitoring wellsite equipment may include producing a digital image and a thermal image of the wellsite equipment; identifying one or more equipment units in the digital image; overlaying the thermal image on the one or more identified equipment units in the digital image to thermally map the one or more identified equipment units; and analyzing temperature conditions of at least a first identified equipment unit.

公开(公告)号：US10213755B2

公开(公告)日：2019-02-26

申请号：US14460944

申请日：2014-08-15

Applicant: SCHLUMBERGER TECHNOLOGY CORPORATION

Inventor： Rajesh Luharuka ,  Kim Hodgson ,  Rod William Shampine ,  Avinash Ramesh ,  Larry Dale Welch ,  Mieszko Salamon ,  Jijo Joseph ,  Gocha Chochua

IPC: B01F15/00 ,  E21B21/06 ,  B01F7/16 ,  B01F15/04 ,  G01L1/00

Abstract: A mixer sensing assembly of a mixer for mixing a wellsite fluid in a tank at a wellsite is provided. The mixer includes a shaft driven by a driver and a paddle operatively connectable to the shaft and rotatable therewith. The sensor assembly includes a mount operatively connectable to the shaft, a fluid interface, and a mixing sensor. The fluid interface is responsive to flow of the wellsite fluid passing thereby, and is connectable to the mount. The mixing sensor is connectable to the mount, the fluid interface, and/or the shaft to measure a strain applied to the thereto whereby fluid parameters of the wellsite fluid may be determined. The wellsite fluid may be mixed moving the components in the tank with the mixer, and measuring a strain on the mixer by detecting movement of the sensor assembly.

公开(公告)号：US10077610B2

公开(公告)日：2018-09-18

申请号：US13839088

申请日：2013-03-15

Applicant: Schlumberger Technology Corporation

Inventor： Hau Nguyen-Phuc Pham ,  Rajesh Luharuka ,  William Bradford Stone ,  Nikki Morrison ,  Jakub Pawel Jodlowski ,  William Troy Huey ,  Travis Almer ,  Laurent Coquilleau

IPC: E21B15/00 ,  E04H7/22 ,  E21B41/00 ,  B65G65/32

CPC classification number: E21B15/00 ,  B65G65/32 ,  E04H7/22 ,  E21B41/00

Abstract: A system and methodology facilitates the handling of oilfield material. The oilfield material is stored in at least one silo which enables use of gravity to feed the oilfield material to a blender or other suitable equipment. Each modular silo is transportable and may be engaged with a support structure via a pivot connection. Once engaged, the silo is pivoted to a raised, upright position on the support structure. The oilfield material is then moved to an interior of the silo, and gravity may be used to feed the oilfield material to a blender or other equipment in a controlled manner.