随着这一“新成员”的加入,哈里·伯顿测井工具的作业范围进一步得到扩大,成为能提供大尺寸井眼测量服务的唯一公司。
With this addition, Halliburton offers the greatest range of hole-size capability and is the only service company to provide this larger wellbore measurement.
井眼测量时每90英尺采集一次数据,借助数据可以拟合井眼轨迹并计算出相同形状的井眼轨迹中移动一根弹性钻杆所需的最小能量。
It USES the well survey data gathered every 90 ft to model the well path and calculates the minimum energy needed to move an elastic beam through a hole in that shape.
对大部分井眼而言,该曲线的初始稳定部分都是直线,在测量的限度以内。
The initial stable portion of this plot for most wellbores is a straight line, within the limits of the measurements.
井眼补偿技术用于与波的传播有关的测量,如声波、传播电阻率和电磁波传播测量。
The technique is used for measurements that rely on the propagation of a wave, such as sonic, propagation resistivity and electromagnetic propagation measurements.
对于大多数直井,倾角其实也只是对井眼轨迹的测量。
For most vertical wellbores, inclination is the only measurement of the path of the wellbore.
通过对井眼的地层压力测量,可以获得水平和垂直方向上的渗透率、表皮系数以及地层压力等地层信息。
Through measurement of formation pressure, the permeability, skin factor and formation pressure etc. informations can be obtained in horizontal and vertical direction.
对于故意使井眼倾斜的井,或井眼接近于法定的边界,方位信息通常也要进行测量。
For intentionally deviated wellbores, or Wells close to legal boundaries, directional information is usually also measured.
对全井眼电导含水率计的结构和测量原理进行了简要介绍。
The structure and measuring principle of the full borehole conductance water-cut meter is briefly introduced.
目前的井眼轨迹方位角测量技术主要靠磁通门传感器,这种技术受地磁场及测量体周围金属管体的制约。
At present, hole trajectory azimuth Angle is measured mainly with magnetism sensor, but which is restricted by magnetic field and the metal tube around the surveying equipment.
沿井眼不同位置设置测量点。 每一测量点可以测量若干参数。
Measuring devices for a number of parameters were set up in different positions all along the well bore.
介绍了该井工程设计、地质设计、主要技术难点、施工概况、井眼轨迹测量及控制技术等。
The engineering design, geology design, main technique difficulty, operation general situation, well track measurement and control technique of the well are introduced.
对比分析了两种坐标系下测量和计算井眼轨迹参数的优缺点。
The advantages and disadvantages of the surveying and calculating well trajectory parameters in two coordinates are also comparatively analyzed.
它的开发、应用成功,为小井眼、短半径井的井眼轨迹测量、斜向器定向开窗作业提供了必备的测量手段。
The development and application of this device provided a necessary mean for the slim hole track measurement and directional window cutting.
指井径仪测量的井眼直径与钻头尺寸之差。
The difference in the caliper-measured diameter of the well and the bit size.
表示井眼最大深度位置的测量温度。
The temperature in the borehole at total depth at the time it is measured.
在其中一次应用中,作业者使用密度测量数据来识别17-1/2英寸井眼中油气含量较低的储层。
In one case, an operator used the density measurement to identify shallow hydrocarbon deposits in a 17-1/2-inch borehole.
一次下井测量一系列的井眼方位和井斜数据。
A series of downhole measurements of a well azimuth and inclination.
通过LWD进行数据测量,可以避免使用昂贵的电缆测井,可以在井眼刚钻完还处在最佳状态时立刻获取第一手数据。
The measurements, delivered via LWD, also eliminate costly wireline conveyance runs and capture data immediately after drilling when the borehole is in the best condition.
根据二维piv技术的要求,建立了淹没射流流场研究的实验台架,并对井眼中流动的淹没射流的动力学流动进行了系统的测量。
Based on technical requirements of PIV system, experiment setup was founded and dynamic characteristics of submerged water jet flow were studied.
ALD可以进行井下密度测量,包括高质量的井眼成像测井,利用地质导向帮助作业者优化井位,减少地质不确定性。
ALD provides downhole density measurements, including high-quality borehole image logs, to help optimize wellbore placement through geosteering and to reduce geological uncertainties.
自然伽马测井是套管井测井中一种最基本的方法。它以地层自然放射性为基础,测井时用伽马射线探测器沿井眼进行测量。地层中的自然伽马放射性不是一成不变的。
Natural gamma logging is a kind of most basic methods of well logging in cased Wells which measure with gamma ray detector along well during logging.
随钻测量是井眼轨迹监测与控制中的一项关键技术。
Measurement while drilling is one of key technologies for monitoring and controlling well trajectory.
先进的近钻头传感器可实时测量地层早期参数和井眼动态变化系列参数,比如倾斜度、伽马射线方位角、转角度、粘滑、振动及其他钻井参数。
Advanced sensors measure inclination, azimuthal gamma ray, whirl, stick-slip, vibration, and other drilling parameters for early detection of formation and borehole dynamic changes.
深入研究了近钻头空间姿态测量系统的结构、原理及安装等问题。对比分析了两种坐标系下测量和计算井眼轨迹参数的优缺点。
An intensively research on the structure, installation and working mechanism of the bit attitudes surveying system is given in this paper.
深入研究了近钻头空间姿态测量系统的结构、原理及安装等问题。对比分析了两种坐标系下测量和计算井眼轨迹参数的优缺点。
An intensively research on the structure, installation and working mechanism of the bit attitudes surveying system is given in this paper.
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