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1. 发明申请

US20090223681A1 ZONE ISOLATION ASSEMBLY FOR ISOLATING A FLUID ZONE IN AN EXISTING SUBSURFACE WELL 有权
标题翻译：区域隔离装置，用于在现有的表面井内分离流体区
公开(公告)号：US20090223681A1
公开(公告)日：2009-09-10
申请号：US12392983
申请日：2009-02-25
申请人： Noah R. Heller , Peter F. Morltzburke
发明人： Noah R. Heller , Peter F. Morltzburke
IPC分类号： E21B49/08 , E21B43/00 , E21B23/04 , E21B23/06 , E21B33/12 , E21B41/00
CPC分类号： E21B49/08
摘要： A zone isolation assembly for a fluid monitoring system in an existing subsurface well includes a fluid receiving pipe, a docking receiver, a docking apparatus and a first sealer. The fluid receiving pipe includes a pipe interior and a fluid inlet structure. The fluid receiving pipe receives a fluid through the fluid inlet structure into the pipe interior. The docking receiver is connected to the fluid receiving pipe. The docking apparatus moves between (i) a docked position wherein the docking apparatus is docked with the docking receiver, and (ii) an undocked position wherein the docking apparatus is undocked with the docking receiver. The first sealer is spaced apart from the docking apparatus. In certain embodiments, the first sealer selectively forms a fluid-tight seal between the fluid receiving pipe and the casing to divide the fluid zone into a first zone and a spaced apart second zone. The first zone and the second zone are not in fluid communication with one another when the docking apparatus is in the docked position.
摘要翻译：用于现有地下井中的流体监测系统的区隔离组件包括流体接收管，对接接收器，对接装置和第一密封器。流体接收管包括管内部和流体入口结构。流体接收管将通过流体入口结构的流体接收到管内部。对接接收器连接到流体接收管。对接装置在（i）停靠位置之间移动，其中对接装置与对接接收器对接，以及（ii）离散位置，其中对接装置与对接接收器脱离连接。第一密封件与对接装置间隔开。在某些实施例中，第一密封件选择性地在流体接收管和壳体之间形成流体密封，以将流体区域分成第一区域和间隔开的第二区域。当对接装置处于对接位置时，第一区域和第二区域不彼此流体连通。

2. 发明授权

US07631696B2 Zone isolation assembly array for isolating a plurality of fluid zones in a subsurface well 有权
标题翻译：区隔离组件阵列，用于隔离地下井中的多个流体区
公开(公告)号：US07631696B2
公开(公告)日：2009-12-15
申请号：US11651647
申请日：2007-01-09
申请人： Noah R. Heller , Peter F. Moritzburke
发明人： Noah R. Heller , Peter F. Moritzburke
IPC分类号： E21B43/00
CPC分类号： E21B49/082 , E21B33/124
摘要： A zone isolation assembly array (794) for a well (712) includes a first zone isolation assembly (722A) and a second zone isolation assembly (722B). The first zone isolation assembly (722A) selectively inhibits fluid communication between a first zone (726) and a second zone (728) of the well (712). The second zone isolation assembly (722B) can be positioned between the first zone isolation assembly (722A) and a surface region (32) of the well (712) in an in-line manner. The second zone isolation assembly (722B) selectively inhibits fluid communication between the second zone (728) and a third zone (796) of the well (712). In another embodiment, the zone isolation assembly array (794) includes a first docking receiver (748A), a second docking receiver (748B), a first docking apparatus (750A) and a second docking apparatus (750B). The docking receivers (748A, 748B) can be positioned in an in-line manner. The second docking apparatus (750B) is coupled to the first docking apparatus (750A). The zone isolation assembly array (794) can also a first fluid collector (752A) and a second fluid collector (752B). The first fluid collector (752A) collects a first fluid (738) from within the first zone (726) when the first docking apparatus (750A) is in the engaged position. The second fluid collector (752B) collects a second fluid (740) from within the second zone (728) when the second docking apparatus (750B) is in the engaged position. The first fluid collector (752A) can collect the first fluid (738) in a different manner than the second fluid collector (752B) collects the second fluid (740).
摘要翻译：用于井（712）的区域隔离组件阵列（794）包括第一区隔离组件（722A）和第二区隔离组件（722B）。第一区隔离组件（722A）选择性地抑制井（712）的第一区（726）和第二区（728）之间的流体连通。第二区隔离组件（722B）可以以直线方式定位在第一区隔离组件（722A）和井（712）的表面区域（32）之间。第二区隔离组件（722B）选择性地抑制第二区（728）和井（712）的第三区（796）之间的流体连通。在另一个实施例中，区域隔离组件阵列（794）包括第一对接接收器（748A），第二对接接收器（748B），第一对接设备（750A）和第二对接设备（750B）。对接接收器（748A，748B）可以以直列方式定位。第二对接装置（750B）耦合到第一对接装置（750A）。区隔离组件阵列（794）还可以是第一流体收集器（752A）和第二流体收集器（752B）。当第一对接装置（750A）处于接合位置时，第一流体收集器（752A）从第一区域（726）内收集第一流体（738）。当第二对接装置（750B）处于接合位置时，第二流体收集器（752B）从第二区域（728）内收集第二流体（740）。第一流体收集器（752A）可以以与第二流体收集器（752B）收集第二流体（740）不同的方式收集第一流体（738）。

3. 发明授权

US08636478B2 Sensor assembly for determining fluid properties in a subsurface well 有权
标题翻译：用于确定地下井中流体特性的传感器组件
公开(公告)号：US08636478B2
公开(公告)日：2014-01-28
申请号：US11651649
申请日：2007-01-09
申请人： Noah R. Heller , Peter F. Moritzburke
发明人： Noah R. Heller , Peter F. Moritzburke
IPC分类号： F04B49/00
CPC分类号： E21B47/00 , E21B49/08 , E21B49/088
摘要： A sensor assembly (51) for sensing one or more fluid properties of a fluid in a subsurface well (12) having a well fluid level (42W), a surface region (32) and a riser pipe (30) includes a sensor apparatus (52) and a pump assembly (54) that are positioned within the well (12). The sensor apparatus (52) includes a sensor (682) that senses one of the fluid properties. The pump assembly (54) can be positioned in an in-line manner relative to the sensor apparatus (52). The pump assembly (54) can be positioned between the sensor apparatus (52) and the surface region (32). Alternatively, the sensor apparatus (52) can be positioned between the pump assembly (54) and the surface region (32). In one embodiment, the sensor apparatus (52) is positioned above the well fluid level (42W). The pump assembly (54) can pump fluid toward the sensor apparatus (52) or the pump assembly (54) can pump fluid to draw more fluid to the sensor apparatus (52). The pump assembly (54) can be a two-line, two-valve pump that is removable from the riser pipe (30). The sensor assembly (51) can include a controller (17) that receives data from the sensor (682) regarding one of the fluid properties of the fluid.
摘要翻译：传感器组件（51），用于感测具有良好的液面（42W），表面区域（32）和提升管（30）的地下井（12）内的流体的一种或多种流体性质，包括传感器装置 52）和定位在井（12）内的泵组件（54）。传感器装置（52）包括感测流体特性之一的传感器（682）。泵组件（54）可以相对于传感器装置（52）以直线方式定位。泵组件（54）可以位于传感器装置（52）和表面区域（32）之间。或者，传感器装置（52）可以位于泵组件（54）和表面区域（32）之间。在一个实施例中，传感器装置（52）位于井液位（42W）之上。泵组件（54）可将流体朝向传感器装置（52）泵送，或者泵组件（54）可以泵送流体以将更多流体抽吸到传感器装置（52）。泵组件（54）可以是可从提升管（30）移除的双线双阀泵。传感器组件（51）可以包括控制器（17），其从传感器（682）接收关于流体的流体性质之一的数据。

4. 发明授权

US07918282B2 Zone isolation assembly array and method for isolating a plurality of fluid zones in a subsurface well 有权
标题翻译：区域隔离组件阵列和用于隔离地下井中的多个流体区域的方法
公开(公告)号：US07918282B2
公开(公告)日：2011-04-05
申请号：US12608950
申请日：2009-10-29
申请人： Noah R. Heller , Peter F. Moritzburke
发明人： Noah R. Heller , Peter F. Moritzburke
IPC分类号： E21B43/00
CPC分类号： E21B49/082 , E21B33/124
摘要： A zone isolation assembly array (794) for a well (712) includes a first zone isolation assembly (722A) and a second zone isolation assembly (722B). The first zone isolation assembly (722A) selectively inhibits fluid communication between a first zone (726) and a second zone (728) of the well (712). The second zone isolation assembly (722B) selectively inhibits fluid communication between the second zone (728) and a third zone (796) of the well (712). In another embodiment, the zone isolation assembly array (794) includes a first docking receiver (748A), a second docking receiver (748B), a first docking apparatus (750A) and a second docking apparatus (750B). The docking receivers (748A, 748B) can be positioned in an in-line manner. The second docking apparatus (750B) is coupled to the first docking apparatus (750A).
摘要翻译：用于井（712）的区域隔离组件阵列（794）包括第一区隔离组件（722A）和第二区隔离组件（722B）。第一区隔离组件（722A）选择性地抑制井（712）的第一区（726）和第二区（728）之间的流体连通。第二区隔离组件（722B）选择性地抑制第二区（728）和井（712）的第三区（796）之间的流体连通。在另一个实施例中，区域隔离组件阵列（794）包括第一对接接收器（748A），第二对接接收器（748B），第一对接设备（750A）和第二对接设备（750B）。对接接收器（748A，748B）可以以直列方式定位。第二对接装置（750B）耦合到第一对接装置（750A）。

5. 发明授权

US08151879B2 Zone isolation assembly and method for isolating a fluid zone in an existing subsurface well 有权
标题翻译：区域隔离组件和用于隔离现有地下井的流体区域的方法
公开(公告)号：US08151879B2
公开(公告)日：2012-04-10
申请号：US12392983
申请日：2009-02-25
申请人： Noah R. Heller , Peter F. Moritzburke
发明人： Noah R. Heller , Peter F. Moritzburke
IPC分类号： E21B49/08 , E21B33/12
CPC分类号： E21B49/08
摘要： A zone isolation assembly for a fluid monitoring system in an existing subsurface well includes a fluid receiving pipe, a docking receiver, a docking apparatus and a first sealer. The fluid receiving pipe includes a pipe interior and a fluid inlet structure. The fluid receiving pipe receives a fluid through the fluid inlet structure into the pipe interior. The docking receiver is connected to the fluid receiving pipe. The docking apparatus moves between (i) a docked position wherein the docking apparatus is docked with the docking receiver, and (ii) an undocked position wherein the docking apparatus is undocked with the docking receiver. The first sealer is spaced apart from the docking apparatus. In certain embodiments, the first sealer selectively forms a fluid-tight seal between the fluid receiving pipe and the casing to divide the fluid zone into a first zone and a spaced apart second zone. The first zone and the second zone are not in fluid communication with one another when the docking apparatus is in the docked position.
摘要翻译：用于现有地下井中的流体监测系统的区隔离组件包括流体接收管，对接接收器，对接装置和第一密封器。流体接收管包括管内部和流体入口结构。流体接收管将通过流体入口结构的流体接收到管内部。对接接收器连接到流体接收管。对接装置在（i）停靠位置之间移动，其中对接装置与对接接收器对接，以及（ii）离散位置，其中对接装置与对接接收器脱离连接。第一密封件与对接装置间隔开。在某些实施例中，第一密封件选择性地在流体接收管和壳体之间形成流体密封，以将流体区域分成第一区域和间隔开的第二区域。当对接装置处于对接位置时，第一区域和第二区域不彼此流体连通。

6. 发明授权

US07665534B2 Zone isolation assembly for isolating and testing fluid samples from a subsurface well 有权
标题翻译：区域隔离组件，用于从地下井分离和测试流体样品
公开(公告)号：US07665534B2
公开(公告)日：2010-02-23
申请号：US11651900
申请日：2007-01-09
申请人： Noah R. Heller , Peter F. Moritzburke
发明人： Noah R. Heller , Peter F. Moritzburke
IPC分类号： E21B33/10
CPC分类号： E21B43/129 , E21B34/12 , E21B49/086
摘要： A zone isolation assembly (22) for a subsurface well (12) having a surface region (32), a first zone (26) and a second zone (28) includes a docking receiver (48) and a docking apparatus (50). The docking apparatus (50) is selectively moved relative to the docking receiver (48) between a disengaged position and an engaged position. In the disengaged position, the first zone (26) is in fluid communication with the second zone (28). In the engaged position, the first zone (26) is not in fluid communication with the second zone (28) during movement of a fluid between the first zone (26) and the surface region (32). The docking apparatus (50) can be maintained in the engaged position substantially by a force of gravity. The zone isolation assembly (22) can include a pump assembly (54) that pumps the fluid while the docking apparatus (50) is in the engaged position. The zone isolation assembly (22) can include a fluid collector (52) that collects the fluid when the docking apparatus (50) is in the engaged position.
摘要翻译：用于具有表面区域（32），第一区域（26）和第二区域（28）的地下井口（12）的区域隔离组件（22）包括对接接收器（48）和对接装置（50）。对接装置（50）在脱离位置和接合位置之间相对于对接接收器（48）选择性移动。在脱离位置，第一区域26与第二区域28流体连通。在接合位置中，在第一区域（26）和表面区域（32）之间的流体运动期间，第一区域（26）不与第二区域（28）流体连通。对接装置（50）可以基本上通过重力保持在接合位置。区域隔离组件（22）可以包括在对接装置（50）处于接合位置时泵送流体的泵组件（54）。区域隔离组件（22）可以包括当对接装置（50）处于接合位置时收集流体的流体收集器（52）。

7. 发明申请

US20090178797A1 GROUNDWATER MONITORING TECHNOLOGIES APPLIED TO CARBON DIOXIDE SEQUESTRATION 审中-公开
标题翻译：地下水监测技术应用于二氧化碳测序
公开(公告)号：US20090178797A1
公开(公告)日：2009-07-16
申请号：US12351834
申请日：2009-01-10
申请人： Noah R. Heller
发明人： Noah R. Heller
IPC分类号： E21B49/08
CPC分类号： E21B41/0064 , E21B33/124 , E21B49/08 , Y02C10/14
摘要： A fluid monitoring system for a subsurface well in a subterranean formation includes a first zone isolator, a second zone isolator, a fluid inlet, a first pressure canister and a first gas-in line. The first and second zone isolators are positioned in the subsurface well. The fluid inlet receives fluid from the subterranean formation. The first pressure canister is positioned between the first zone isolator and the second zone isolator. The first pressure canister receives the fluid at an in-situ pressure. The first gas-in line selectively delivers a gas to the first pressure canister to pressurize the first pressure canister so that the first pressure canister is adapted to be removed from the subsurface well at a substantially similar pressure as the in-situ pressure. In one embodiment, the first pressure canister receives the fluid at an in-situ temperature. In this embodiment, the first pressure canister is adapted to be removed from the subsurface well at a substantially similar temperature as the in-situ temperature.
摘要翻译：用于地下地层中的地下井的流体监测系统包括第一区域隔离器，第二区域隔离器，流体入口，第一压力罐和第一气体入口管线。第一和第二区隔离器位于地下井。流体入口接收来自地层的流体。第一压力罐位于第一区隔离器和第二区隔离器之间。第一压力罐以原位压力接收流体。第一气体入口管线选择性地将气体输送到第一压力罐以对第一压力罐进行加压，使得第一压力罐适于以与原位压力基本相似的压力从地下井中移除。在一个实施例中，第一压力罐在原位温度下接收流体。在该实施例中，第一压力罐适于在与原位温度基本相似的温度下从地下井除去。

8. 发明授权

US07556097B2 Docking receiver of a zone isolation assembly for a subsurface well 有权
标题翻译：用于地下井的隔离组件的对接接收器
公开(公告)号：US07556097B2
公开(公告)日：2009-07-07
申请号：US11651875
申请日：2007-01-09
申请人： Noah R. Heller , Peter F. Moritzburke
发明人： Noah R. Heller , Peter F. Moritzburke
IPC分类号： E21B49/08
CPC分类号： E21B49/08 , E21B23/02
摘要： A docking receiver (48) for a subsurface well (12) having a fluid inlet structure (29), a riser pipe (30) and a docking apparatus (50) includes an upper section (372A) and a lower section (374A). The upper section (372A) is secured to the riser pipe (30). The lower section (374A) is secured to the fluid inlet structure (29). The lower section (374A) receives the docking apparatus (50) into an engaged position wherein fluid communication between a first zone (26) and a second zone (28) of the well (12) is inhibited. The lower section (374A) includes a contact surface (376A) and a distal region (377A). The contact surface (376A) contacts the docking apparatus (50) when the docking apparatus (50) is in the engaged position. The distal region (377A) is positioned more distally from a surface region (32) of the well (12) than the contact surface. The lower section (374A) can have a lower inner diameter (380UD, 380LD) that varies within the distal region (377A). When the docking apparatus (50) is not in the engaged position with the docking receiver (48), the first zone (26) is in fluid communication with the second zone (28).
摘要翻译：用于具有流体入口结构（29）的下表面井（12）的对接接收器（48），提升管（30）和对接装置（50）包括上部（372A）和下部（374A）。上部（372A）固定在提升管（30）上。下部（374A）固定在流体入口结构（29）上。下部（374A）将对接装置（50）接收到接合位置，在该位置中，井（12）的第一区（26）和第二区（28）之间的流体连通被禁止。下部（374A）包括接触表面（376A）和远端区域（377A）。当对接装置（50）处于接合位置时，接触表面（376A）接触对接装置（50）。远端区域（377A）位于比接触表面更远离井的表面区域（32）的位置。下部（374A）可以具有在远端区域（377A）内变化的较低内径（380UD，380LD）。当对接装置（50）不处于与对接接收器（48）的接合位置时，第一区域（26）与第二区域（28）流体连通。

9. 发明授权

US07455590B2 Sending messages in response to events occurring on a gaming service 有权
标题翻译：发送消息以响应游戏服务上发生的事件
公开(公告)号：US07455590B2
公开(公告)日：2008-11-25
申请号：US10434611
申请日：2003-05-09
申请人： Peter Hansen , Noah R. Heller , Mark D. VanAntwerp , Boyd C. Multerer
发明人： Peter Hansen , Noah R. Heller , Mark D. VanAntwerp , Boyd C. Multerer
IPC分类号： A63F9/24 , A63F13/00 , G06F15/16 , G06F15/177
CPC分类号： G07F17/32 , G07F17/3227
摘要： Alerts are transmitted to subscribers to an alerts service in response to events that occur within a gaming environment. Communication within the gaming environment is limited to specific game consoles and the gaming service. A subscriber to the alert notification service can be alerted when a friend joins the gaming service to play a game, or can select other events for which an alert is requested to be sent to the subscriber. In response to any predetermined event occurring within the gaming environment, an alerts service provides an alert or message that is transmitted through a secure firewall and outside the gaming environment. The alert message can be in the form of a pop-up that appears on a user's instant messaging service, or an email, or a message that is transmitted through a mobile communication service to a cell phone or other portable communication device.
摘要翻译：响应于游戏环境中发生的事件，向警报服务发送警报。游戏环境中的通信仅限于特定的游戏机和游戏服务。当朋友加入游戏服务来玩游戏时，可以提醒警报通知服务的订户，或者可以选择其中请求向用户发送警报的其他事件。响应于在游戏环境中发生的任何预定事件，警报服务提供通过安全防火墙和游戏环境之外传输的警报或消息。警报消息可以是出现在用户的即时消息服务或电子邮件或通过移动通信服务传送到蜂窝电话或其他便携式通信设备的消息的弹出窗体。

10. 发明申请

US20100044051A1 ZONE ISOLATION ASSEMBLY ARRAY FOR ISOLATING A PLURALITY OF FLUID ZONES IN A SUBSURFACE WELL 有权
标题翻译：区域隔离装置阵列，用于在表面井中分离多个流体区
公开(公告)号：US20100044051A1
公开(公告)日：2010-02-25
申请号：US12608950
申请日：2009-10-29
申请人： Noah R. Heller , Peter F. Moritzburke
发明人： Noah R. Heller , Peter F. Moritzburke
IPC分类号： E21B43/00 , E21B33/03
CPC分类号： E21B49/082 , E21B33/124
摘要： A zone isolation assembly array (794) for a well (712) includes a first zone isolation assembly (722A) and a second zone isolation assembly (722B). The first zone isolation assembly (722A) selectively inhibits fluid communication between a first zone (726) and a second zone (728) of the well (712). The second zone isolation assembly (722B) can be positioned between the first zone isolation assembly (722A) and a surface region (32) of the well (712) in an in-line manner. The second zone isolation assembly (722B) selectively inhibits fluid communication between the second zone (728) and a third zone (796) of the well (712). In another embodiment, the zone isolation assembly array (794) includes a first docking receiver (748A), a second docking receiver (748B), a first docking apparatus (750A) and a second docking apparatus (750B). The docking receivers (748A, 748B) can be positioned in an in-line manner. The second docking apparatus (750B) is coupled to the first docking apparatus (750A). The zone isolation assembly array (794) can also a first fluid collector (752A) and a second fluid collector (752B). The first fluid collector (752A) collects a first fluid (738) from within the first zone (726) when the first docking apparatus (750A) is in the engaged position. The second fluid collector (752B) collects a second fluid (740) from within the second zone (728) when the second docking apparatus (750B) is in the engaged position. The first fluid collector (752A) can collect the first fluid (738) in a different manner than the second fluid collector (752B) collects the second fluid (740).
摘要翻译：用于井（712）的区隔离组件阵列（794）包括第一区隔离组件（722A）和第二区隔离组件（722B）。第一区隔离组件（722A）选择性地抑制井（712）的第一区（726）和第二区（728）之间的流体连通。第二区隔离组件（722B）可以以直线方式定位在第一区隔离组件（722A）和井（712）的表面区域（32）之间。第二区隔离组件（722B）选择性地抑制第二区（728）和井（712）的第三区（796）之间的流体连通。在另一个实施例中，区域隔离组件阵列（794）包括第一对接接收器（748A），第二对接接收器（748B），第一对接设备（750A）和第二对接设备（750B）。对接接收器（748A，748B）可以以直列方式定位。第二对接装置（750B）耦合到第一对接装置（750A）。区隔离组件阵列（794）还可以是第一流体收集器（752A）和第二流体收集器（752B）。当第一对接装置（750A）处于接合位置时，第一流体收集器（752A）从第一区域（726）内收集第一流体（738）。当第二对接装置（750B）处于接合位置时，第二流体收集器（752B）从第二区域（728）内收集第二流体（740）。第一流体收集器（752A）可以以与第二流体收集器（752B）收集第二流体（740）不同的方式收集第一流体（738）。

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