摘要
随钻电磁波传播方位电阻率仪器在钻井过程中可以提供地层边界的方位及距离信息,因此在地质导向应用中发挥着重要作用,是提高油气资源开采率的重要手段.该技术是国外近十年来发展起来的前沿技术,在国内尚属空白.本文首次构思并实现了一种应用"交联天线"的随钻电磁波传播方位电阻率仪器,并从天线结构,测量原理,数据处理以及地层电阻率成像及解释等几个方面详细阐述.交联天线由极化方向正交的线圈串绕组成,同时具有方位探测和地层背景电阻率测量的功能.通过分析交联天线的电压在仪器旋转过程中的变化规律,可以计算出仪器所在地层的电阻率,判断地层边界的方位以及估算地层边界相距仪器的距离.该随钻电磁波传播方位电阻率仪器还包括用于常规电磁波传播电阻率测试的多频多测距补偿天线结构.结合地层电阻率测量及其在方位上的相对变化,可以实现对地层电阻率的全方位成像.该仪器在国内油田进行了多次实井测试,测试结果证明仪器能够在水平井地质导向中准确提供仪器所在地层的电阻率,以及地层边界方位和距离信息.已有实井测试结果表明仪器在油层(100Ωm)和泥岩(5Ωm)中的地层边界探测深度分别为2.2m和1.6m,平均误差在0.2m以内.
Geosteering plays a very important role in enhancing hydrocarbon recovery rates by keeping drill bit within hydrocarbon bearing zone to the maximum extent.Precise geosteering requires information of exact position of the down-hole assembly and geological characteristics of surrounding formations,which,e.g.includes if the surrounding formation is an oil-bearing zone and how far and in which direction the oil-bearing zone boundary is located with respect to the down-hole tool assembly.Directional resistivity logging while drilling(LWD)technique is one of the most effective means for real-time geosteering applications by providing information of formation resistivity as well as the relative location(distance and direction)of formation boundaries with respect to the down-hole tool assembly.This paper presents key techniques ofanewly developed directional resistivity LWD tool equipped with a joint-coil antenna which fulfills all features mentioned above.The directional resistivity LWD tool equipped with the joint-coil antenna has been developed to implement three functions:(1)providing azimuthal direction of a formation boundary;(2)estimating the distance to the boundary from the tool;(3)generating azimuthal resistivity image of surrounding formations.Two orthogonal coils denoted as Rz and Rx coils are connected in series to compose the joint-coil antenna.The Rz coil has the same polarization as the transmitter coil antenna whereas the Rx coil has an orthogonal polarization.The total response of the jointcoil antenna is the sum of the responses from both Rz and Rx coils.The Rz response only reflects background resistivity of formation whereas the Rx response is only related to formation boundaries.The azimuthal direction of a formation boundary can be derived by analyzing the Rx coil response,which varies sinusoidally during a rotation circle of the directional resistivity LWD tool.The vertex of the Rx response corresponds to either the exact direction of the boundary or the complete opposite dir
出处
《地球物理学报》
SCIE
EI
CAS
CSCD
北大核心
2015年第5期1767-1775,共9页
Chinese Journal of Geophysics
基金
中国石油集团石油工程技术重大科技专项旋转地质导向课题(2014E-35-01)
自然科学基金项目岩石及混合材料电特性的虚拟化测量方法(NSFC51277012)资助
关键词
随钻
电磁波传播
方位电阻率
交联线圈
地质导向
边界识别
测距
电阻率成像
Logging while drilling
Electromagnetic propagation
Directional resistivity
Joint-coil antenna
Geosteering
Boundary detection
Boundary distance estimate
Resistivity imaging
