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1.发明申请ACOUSTIC TRIGGERING DEVICES FOR MULTIPLE FLUID SAMPLERS AND METHODS OF MAKING AND USING SAME 有权用于多个流体取样器的声学触发装置及其制造和使用方法公开(公告)号:US20120305244A1
公开(公告)日:2012-12-06
申请号:US13193881
申请日:2011-07-29
Applicant: Malcolm Atkinson , John Stevens , Adeel Khan , Susanna Fragoso , Laurent Alteirac , Jim Filas
Inventor: Malcolm Atkinson , John Stevens , Adeel Khan , Susanna Fragoso , Laurent Alteirac , Jim Filas
CPC classification number: E21B49/081 , E21B47/122 , E21B47/16
Abstract: A method for capturing a sample from a wellbore, comprising the steps of introducing a first message and a second message into a tubing positioned within the wellbore. The first message is directed to a first modem connected to a first sampler device to cause the first sampler device to collect a first sample. The second message is directed to a second modem connected to a second sampler device to cause the second sampler device to collect a second sample.
Abstract translation: 一种用于从井眼捕获样品的方法,包括以下步骤:将第一消息和第二消息引入到位于所述井眼内的管道中。 第一消息被引导到连接到第一采样器设备的第一调制解调器,以使得第一采样器设备收集第一采样。 第二消息被引导到连接到第二采样器装置的第二调制解调器,以使第二采样器装置收集第二采样。
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公开(公告)号:US08061219B2
公开(公告)日:2011-11-22
申请号:US12715478
申请日:2010-03-02
Applicant: Fadhel Rezgui , Gilles Roux , Robert Ingham , Jim Filas , Yves Manin , Eric Donzier
Inventor: Fadhel Rezgui , Gilles Roux , Robert Ingham , Jim Filas , Yves Manin , Eric Donzier
IPC: G01F1/44
Abstract: A flow rate device for measuring the flow rate of a fluid flowing through a wellbore is disclosed. The flow rate device includes a differential pressure conduit, a flow restrictor insert and a differential pressure measurement device. The differential pressure conduit is locatable in the wellbore, defines an internal bore, and is adapted to include a restriction having a cross-sectional area to increase the velocity of fluid flowing through the differential pressure conduit to create a differential pressure. The differential pressure conduit defining first and second pressure measuring stations axially spaced along the differential pressure conduit. The flow restrictor insert is located in the restriction to reduce the cross-sectional area of the restriction. The flow restrictor insert defines an internal bore having a cross-sectional area less than the cross-sectional area of the restriction. The flow restrictor insert also has a pressure measuring port aligned with the second pressure measuring station. The differential pressure measurement device has at least one pressure sensor for detecting the pressure at the first pressure station, and for detecting the pressure at the second pressure station to generate a signal indicative of the flow rate of the fluid.
Abstract translation: 公开了一种用于测量流过井眼的流体的流量的流量装置。 流量装置包括差压管道,限流器插入件和差压测量装置。 差压管可定位在井孔中,限定内孔,并且适于包括具有横截面面积的限制件,以增加流过差压管道的流体的速度以产生差压。 所述差压管道限定沿差压管道轴向间隔开的第一和第二压力测量站。 限流器插入件位于限制件中以减小限制的横截面积。 限流器插入件限定了具有小于限制件的横截面面积的横截面面积的内孔。 限流器插入件还具有与第二压力测量站对准的压力测量端口。 差压测量装置具有用于检测第一压力站处的压力的至少一个压力传感器,并且用于检测第二压力站处的压力以产生指示流体流量的信号。
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公开(公告)号:US20110214498A1
公开(公告)日:2011-09-08
申请号:US12715478
申请日:2010-03-02
Applicant: Fadhel Rezgui , Gilles Roux , Robert Ingham , Jim Filas , Yves Manin , Eric Donzier
Inventor: Fadhel Rezgui , Gilles Roux , Robert Ingham , Jim Filas , Yves Manin , Eric Donzier
Abstract: A flow rate device for measuring the flow rate of a fluid flowing through a wellbore is disclosed. The flow rate device includes a differential pressure conduit, a flow restrictor insert and a differential pressure measurement device. The differential pressure conduit is locatable in the wellbore, defines an internal bore, and is adapted to include a restriction having a cross-sectional area to increase the velocity of fluid flowing through the differential pressure conduit to create a differential pressure. The differential pressure conduit defining first and second pressure measuring stations axially spaced along the differential pressure conduit. The flow restrictor insert is located in the restriction to reduce the cross-sectional area of the restriction. The flow restrictor insert defines an internal bore having a cross-sectional area less than the cross-sectional area of the restriction. The flow restrictor insert also has a pressure measuring port aligned with the second pressure measuring station. The differential pressure measurement device has at least one pressure sensor for detecting the pressure at the first pressure station, and for detecting the pressure at the second pressure station to generate a signal indicative of the flow rate of the fluid.
Abstract translation: 公开了一种用于测量流过井眼的流体的流量的流量装置。 流量装置包括差压管道,限流器插入件和差压测量装置。 差压管可定位在井孔中,限定内孔,并且适于包括具有横截面面积的限制件,以增加流过差压管道的流体的速度以产生差压。 所述差压管道限定沿差压管道轴向间隔开的第一和第二压力测量站。 限流器插入件位于限制件中以减小限制的横截面积。 限流器插入件限定了具有小于限制件的横截面面积的横截面面积的内孔。 限流器插入件还具有与第二压力测量站对准的压力测量端口。 差压测量装置具有用于检测第一压力站处的压力的至少一个压力传感器,并且用于检测第二压力站处的压力以产生指示流体流量的信号。
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公开(公告)号:US09140116B2
公开(公告)日:2015-09-22
申请号:US13193881
申请日:2011-07-29
Applicant: Malcolm Atkinson , John Stevens , Adeel Khan , Susanna Fragoso , Laurent Alteirac , Jim Filas
Inventor: Malcolm Atkinson , John Stevens , Adeel Khan , Susanna Fragoso , Laurent Alteirac , Jim Filas
CPC classification number: E21B49/081 , E21B47/122 , E21B47/16
Abstract: A method for capturing a sample from a wellbore, comprising the steps of introducing a first message and a second message into a tubing positioned within the wellbore. The first message is directed to a first modem connected to a first sampler device to cause the first sampler device to collect a first sample. The second message is directed to a second modem connected to a second sampler device to cause the second sampler device to collect a second sample.
Abstract translation: 一种用于从井眼捕获样品的方法,包括以下步骤:将第一消息和第二消息引入到位于所述井眼内的管道中。 第一消息被引导到连接到第一采样器设备的第一调制解调器,以使得第一采样器设备收集第一采样。 第二消息被引导到连接到第二采样器装置的第二调制解调器,以使第二采样器装置收集第二采样。
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5.发明申请DOWNHOLE, SINGLE TRIP, MULTI-ZONE TESTING SYSTEM AND DOWNHOLE TESTING METHOD USING SUCH 有权井下,单行,多区测试系统和使用这种方式的井下测试方法
公开(公告)号:US20110048122A1
公开(公告)日:2011-03-03
申请号:US12745582
申请日:2008-11-28
Applicant: Pierre Le Foll , Jim Filas , Christopher Sarvari
Inventor: Pierre Le Foll , Jim Filas , Christopher Sarvari
IPC: E21B47/00
Abstract: A multizone testing system (100), for the testing of subterranean layers, comprises an upper subsystem (109) comprising a control station (151), a main isolation packer (113) for isolating the upper subsystem (109) from the lower subsystem (111), a lower subsystem (111) comprising an array of individual apparatuses (116) connected in series, each apparatus (116) being adapted for the testing of one layer and comprising a series of remotely activated tools for hydraulically isolating and testing the corresponding layer and a communication system comprises communication means between the control station (151) and the surface and between the control station (151) and each of the individual apparatuses (116) in order to control the remotely activated tools of the individual apparatuses for sequential testing of the layers. A multizone testing method for the testing of a plurality of subterranean layers intersected by a well, using a multizone testing system (100) comprises the steps of running and positioning said system (100) into the well such that each individual apparatus (116) is adjacent to a layer to be tested and controlling the remotely activated tools of the individual apparatuses for a sequential test of the layers.
Abstract translation: 用于测试地下层的多区域测试系统(100)包括上部子系统(109),其包括控制站(151),用于将上部子系统(109)与下部子系统隔离的主隔离隔离器(113) 111),包括串联连接的各个装置(116)的阵列的下部子系统(111),每个装置(116)适于测试一层,并且包括一系列远程激活的工具,用于水力隔离和测试相应的 层和通信系统包括在控制站(151)和表面之间以及控制站(151)和每个单独设备(116)之间的通信装置,以便控制各个设备的远程激活的工具进行顺序测试 的层。 用于使用多区域测试系统(100)测试与井相交的多个地下层的多区域测试方法包括以下步骤:将所述系统(100)运行并定位到井中,使得每个单独设备(116)是 邻近要测试的层并且控制各个设备的远程激活的工具以进行层的顺序测试。
