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    • 2. 发明申请
    • INSPECTION ASSEMBLY
    • 检查组装
    • WO2017103579A1
    • 2017-06-22
    • PCT/GB2016/053923
    • 2016-12-13
    • E.V. OFFSHORE LIMITED
    • THURSBY, JonathanPECK, Shaun
    • G02B23/24A61B1/00A61B1/06E21B47/00G01N21/954
    • G02B23/2461A61B1/00096A61B1/00174A61B1/00188A61B1/05A61B1/0623A61B1/0676A61B1/0684E21B47/0002G01N21/954G02B23/2423
    • This invention relates to an inspection assembly comprising a light source and a lens. In particular this invention relates to the provision of a reflection surface for improving the illumination of a field of view of a wide angle camera. An inspection assembly comprises a main body having a longitudinal axis and a distal end; a lens located at the distal end; a light source positioned to illuminate an area beyond the distal end of the main body; and a reflection surface, an angle between the reflection surface and the longitudinal axis of the main body being between 10° and 70°, wherein the reflection surface is positioned such that, in use, a first fraction of the light emitted by the light source is reflected by the reflection surface and a second fraction of the light emitted by the light source travels to an area beyond the distal end of the main bodywithout being reflected by said surface.
    • 本发明涉及包括光源和透镜的检查组件。 具体地说,本发明涉及提供用于改善广角相机的视场的照明的反射表面。 检查组件包括具有纵向轴线和远端的主体; 位于远端的透镜; 定位成照亮超过主体远端的区域的光源; 和反射表面,反射表面与主体的纵向轴线之间的角度在10°之间; 其中所述反射表面被定位成使得在使用中由所述光源发射的光的第一部分被所述反射表面反射并且由所述光源发射的光的第二部分行进到超出所述反射表面的区域 主体的远端没有被所述表面反射。
    • 6. 发明申请
    • DISCRETIZATION SCHEME FOR SIMULATING PROPPANT TRANSPORT IN DYNAMIC FRACTURE NETWORKS
    • 在动态断裂网络中模拟特种运输的分析方案
    • WO2016080983A1
    • 2016-05-26
    • PCT/US2014/066395
    • 2014-11-19
    • HALLIBURTON ENERGY SERVICES, INC.
    • SHETTY, Dinesh, AnandaLIN, Avi
    • E21B43/26E21B43/247G06G7/48
    • G06F17/5009E21B43/26E21B43/267E21B47/0002E21B49/00G06F17/11
    • In accordance with embodiments of the present disclosure, a discretization technique may be used to solve for fluid and proppant flow through a fracture within a dynamic fracture network. The discretization technique may involve performing a spatial discretization of non-linear coupled equations by integrating the equations over staggered finite control volumes. For example, the spatial discretization may involve integrating a continuity equation representing fluid flowing through the fracture over a first control volume along the length of the fracture, integrating a momentum equation representing the fluid flowing through the fracture over a second control volume that is staggered with respect to the first control volume, and integrating a proppant equation representative of the proppant flowing with the fluid through the fracture over the first control volume. The discretized equations may be used to determine a linear system of equations to simulate proppant flow through the dynamic fracture network.
    • 根据本公开的实施例,离散化技术可以用于解决通过动态断裂网络内的断裂的流体和支撑剂流动。 离散化技术可以包括通过对交错的有限控制体积进行积分来执行非线性耦合方程的空间离散化。 例如,空间离散化可以涉及将代表流过裂缝的流体的连续性方程集成在沿断裂长度的第一控制体积上,将表示流过裂缝的流体的动量方程整合在与第二控制体积交错的第二控制体上 相对于第一控制体积,并且将表示支撑剂的支撑剂方程与流体通过第一控制体积上的裂缝进行积分。 离散方程可用于确定线性方程组,以模拟通过动态断裂网络的支撑剂流。
    • 9. 发明申请
    • IMAGING OF WELLBORE PIPES USING DEEP AZIMUTHAL ANTENNAS
    • 使用深层AZIMUTHAL天线形成井筒管
    • WO2016007380A1
    • 2016-01-14
    • PCT/US2015/039032
    • 2015-07-02
    • HALLIBURTON ENERGY SERVICES, INC.
    • DONDERICI, Burkay
    • E21B47/00G01V3/18G01V3/28
    • E21B47/0006E21B47/0002E21B47/082G01N27/90G01V3/28
    • A pipe inspection tool includes a body having a central axis, and one or more azimuthal antenna arrays operatively coupled to the body. Each azimuthal antenna array includes a plurality of antenna coils arranged circumferentially about the central axis and comprising an azimuthal array of z-coils or an azimuthal array of separated x-coils and separated y-coils. The separated x-coils are oriented in a first direction with respect to the central axis, the separated y-coils are oriented in a second direction with respect to the central axis, and the z-coils are oriented in a third direction with respect to the central axis. The second direction is orthogonal to the first direction, and the third direction is orthogonal to both the first and second directions.
    • 管道检查工具包括具有中心轴线的主体和可操作地联接到主体的一个或多个方位天线阵列。 每个方位角天线阵列包括围绕中心轴线周向布置的多个天线线圈,并且包括z线圈的方位阵列或分离的x线圈和分离的y线圈的方位阵列。 分离的x线圈相对于中心轴线在第一方向上定向,所分离的y线圈相对于中心轴线在第二方向上定向,并且z线圈相对于 中心轴。 第二方向与第一方向正交,第三方向与第一方向和第二方向正交。
    • 10. 发明申请
    • SYSTEM FOR DETERMINING A WORKING-FACE IMAGE
    • 用于确定原始刷子图像的系统
    • WO2015014655A3
    • 2015-10-01
    • PCT/EP2014065652
    • 2014-07-21
    • MONTANUNIVERSITÄT LEOBEN
    • GALLER ROBERTWENIGHOFER ROBERTENTACHER MARTIN
    • G01C7/06
    • E21B47/0002E21C39/00E21D9/00
    • The invention relates to an assembly (120) for determining an image of at least one region of a working face (122) of a rock mass (102), which working face is processed by a tunnel boring machine (180), wherein the assembly (120) comprises a rotatable drilling head (150) for the tunnel boring machine (180) for removing rock material of the working face (122), an image recording device (124), which is attached to the drilling head (150) in order to record image data of at least one section (600) of the working face (122), and an image processing device (126), which is designed to process image data of a plurality of sections (600) of the working face (122), which are recorded by means of the image recording device (124) in particular during the rotation of the drilling head (150), and for reconstructing the image of at least the region of the working face (122) from the image data of the plurality of sections (600) of the working face (122). In addition, a regular or continuous optical analysis of the working face can provide additional information that is useful for improving or optimizing the control of the tunnel boring machine.
    • 装置(120),用于检测(180)的隧道掘进机中的一个的至少一部分的图像加工的山(102)的工作面(122),所述组件(120)包括用于消融所述隧道掘进机(180)一个rotierfähigen钻头(150) 安装成用于在所述镗头(150)至少接收图像数据的面部(122)的一部分(600)的工作面(122),图像拾取装置(124)的岩石材料,以及图像处理装置(126),其是用于处理 多个面(122),其被所述钻头(150)的旋转过程中由图像拾取装置(124)拾取的,特别是部分(600)中的并用于重构从所述多个的图像数据中的面部(122)的至少所述区域的图像的图像数据 工作面(122)的部分(600)形成。 另外,对面部的定期或连续光学分析可以提供用于改善或优化隧道掘进机控制的附加信息。