1) LCT
测井电缆类型
2) wireline logging
电缆测井
1.
The comparison between logging while drilling(LWD) and wireline logging(WL) curves of a oilfield shows that: the depth,value of resistivity,and distribution range of density of the LWD measurements are rather close to that of WL,invasion effect in LWD is less than that in WL,so LWD can provide more credible information for oil-gas interpretation and formation evaluation.
通过对某油田随钻测井与电缆测井在深度和曲线数值两方面的比较,表明了在该油田随钻测井资料良好,能为油气解释和地层评价提供可靠的信息。
2.
LWD is more outstanding than wireline logging in complicated wells.
随钻测井主要特点是边钻边测,在完成钻井任务的同时完成测井任务,解决了常规电缆测井无法施工的高难度井的测井问题。
3.
By analysis and comparison between logging while drilling (LWD) data and wireline logging data, the response characteristics of the two logging tools are respectively concluded for different wells (vertical or inclined well) and for different formation (anisotropic or laminar formation).
对随钻测井资料和电缆测井资料进行了对比和分析 ,初步总结出这两种测井方式在不同井眼条件 (直井、大斜度井 )和不同地层条件 (各向异性地层、薄交互层 )下各自的响应特征 ,指出了二者的异同点 ;并结合传统电缆测井资料地层评价方法 ,对随钻测井资料应用于地层评价的可行性和存在的问题作了探
4) logging cable
测井电缆
1.
Development oflogging cable automatic magnetic marking system;
测井电缆自动注磁系统的研制
2.
Based on magnetic flux leakage,the experiment system has been designed for inspecting broken wires in logging cables.
针对测井电缆使用过程中的铠装断丝现象,基于漏磁检测法设计了测井电缆铠装断丝检测实验系统。
3.
In this paper, the principle of logging cable communication system is introduced, and the model of logging communication cable and simulation method are also discussed.
文中介绍测井电缆通信系统原理,以及测井通信电缆的模型和仿真方法,并给出计算仿真电路参数的方法。
5) no cable logging
无电缆测井
1.
A no cable logging method for level well logging, large pitch well logging and large displacement well logging is proposed in this paper.
针对油田水平井、大斜度井、大位移井等测井的特殊要求 ,结合目前通信、计算机及大规模集成电路技术 ,提出了一种不采用电缆的水平井测井模式———钻杆推进无电缆测井 ,本文着重介绍该模式的构成原理和实现的关键技术。
6) wire line resistivity logging
电缆电阻率测井
1.
After introducing the characteristics of LWD,the relationship between LWD and wire line resistivity logging data is studied systematicly in the paper.
本文在介绍了随钻测井的特点之后,系统研究了随钻电阻率测井与电缆电阻率测井信息之间的关系,旨在提高对随钻测井资料定性和定量的认识水平。
补充资料:电缆纸
分子式:
CAS号:
性质:又称电缆绝缘纸(cable insulating paper)。供高压电力电缆、控制电缆和信号电缆用的一种绝缘纸。它包在电缆最外层,用以保护导电线芯的绝缘层密封,不使潮气侵入,也不让绝缘层遭受破坏。为卷筒纸。定量为45~175g/m2。纸质坚韧、匀整。有较高的抗张、耐折和撕裂强度。不含金属、沙粒及能导电的酸性物质。介电常数高。功率因数低。经受绝缘性液体处理时,纸的稳定性良好。其品种依据不同厚度或颜色来划分。以未漂硫酸盐针叶木浆为原料,经游离状打浆后,不施胶,不加填(料),在长网造纸机上抄造而成。用于电线或电缆的匝间绝缘。
CAS号:
性质:又称电缆绝缘纸(cable insulating paper)。供高压电力电缆、控制电缆和信号电缆用的一种绝缘纸。它包在电缆最外层,用以保护导电线芯的绝缘层密封,不使潮气侵入,也不让绝缘层遭受破坏。为卷筒纸。定量为45~175g/m2。纸质坚韧、匀整。有较高的抗张、耐折和撕裂强度。不含金属、沙粒及能导电的酸性物质。介电常数高。功率因数低。经受绝缘性液体处理时,纸的稳定性良好。其品种依据不同厚度或颜色来划分。以未漂硫酸盐针叶木浆为原料,经游离状打浆后,不施胶,不加填(料),在长网造纸机上抄造而成。用于电线或电缆的匝间绝缘。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条