会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 4. 发明申请
    • HYDRATION APPARATUS AND METHOD
    • 水化装置和方法
    • US20160129418A1
    • 2016-05-12
    • US14536415
    • 2014-11-07
    • SCHLUMBERGER TECHNOLOGY CORPORATION
    • Hau PhamRajesh Luharuka
    • B01J19/24B01J19/18E21B41/00
    • B01J19/24B01F3/12B01F5/0603B01F5/0647B01F13/1016B01F2003/1285B01J19/18B01J19/2445B01J19/245B01J19/246B01J19/248B01J2219/192B01J2219/1941B01J2219/2401E21B41/00
    • 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.
    • 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。
    • 6. 发明申请
    • Direct Slurry Weight Sensor for Well Operation Mixing Process
    • 直接浆料重量传感器,用于井操作混合过程
    • US20140269144A1
    • 2014-09-18
    • US14212672
    • 2014-03-14
    • Weatherford/Lamb, Inc.
    • Grant W. AyoBilly Williams
    • E21B33/13
    • E21B33/13B01F3/1221B01F5/106B01F5/205B01F15/00233B01F15/0408B01F15/0429B01F2003/1285G05D21/02
    • A slurry mixing system calculates a density of a slurry using measured pressure differential and bulk velocity of the slurry. Slurry from mixing of dry blend and mix fluid enters a one or more tanks having agitators. A pump then pumps the slurry from the tank(s) to the well, and a portion of the slurry is recirculating back to a mixer. From the recirculated path, a direct slurry weight sensor measures a pressure differential of the slurry between two vertical measurement points of a known volume, and the sensor measures a velocity of the recirculated slurry. Based on these measures, the controller calculates a density of the slurry, monitors a ratio of the dry blend and the mix fluid, and adjusts the ratio based on the calculated density of the slurry if there is a discrepancy.
    • 浆料混合系统使用测量的浆料的压差和体积速度来计算浆料的密度。 混合干混合物和混合液的浆料进入具有搅拌器的一个或多个罐中。 泵然后将浆料从罐泵送到井中,并且一部分浆料再循环回混合器。 从再循环路径,直接浆料重量传感器测量已知体积的两个垂直测量点之间的浆料的压力差,并且传感器测量再循环浆料的速度。 基于这些措施,控制器计算浆料的密度,监测干混合物和混合流体的比例,并且如果存在差异,则基于浆料的计算密度来调节比率。
    • 9. 发明授权
    • Hydration apparatus and method
    • 水化装置及方法
    • US09457335B2
    • 2016-10-04
    • US14536415
    • 2014-11-07
    • SCHLUMBERGER TECHNOLOGY CORPORATION
    • Hau PhamRajesh Luharuka
    • B01J19/24E21B41/00B01J19/18
    • B01J19/24B01F3/12B01F5/0603B01F5/0647B01F13/1016B01F2003/1285B01J19/18B01J19/2445B01J19/245B01J19/246B01J19/248B01J2219/192B01J2219/1941B01J2219/2401E21B41/00
    • 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.
    • 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。