1) well number
井数
1.
According to the analysis on the changing rule of oil field development indexes, this paper proposes a method for determining the maximum well number of an oil field method of oil field trend maximum well number, and shows that the well number of oil field conforms to the improves Poisson Cycle with the changing rule of time.
根据大量实际油田开发指标变化规律的分析 ,提出了确定油田最大井数的方法———油田趋势性最大井数法 ,并表明油田井数随时间的变化规律符合改进的泊松旋回。
2) logging parameters
测井参数
1.
Inversion of multi-logging parameters under constrain of relative wave impedance data volume and application.;
相对波阻抗数据体约束下的多井测井参数反演方法及应用
2.
In the past, the prediction of the reservoir production capacity by logging parameters was based on a single testing well.
过去人们利用测井参数对储层产能的预测都是基于单层测试资料。
3.
The causes producing logging parameters and containing water of the low resistance reservoir are analyzed.
对孤东油田七区西馆陶组下段低电阻率油层特征进行了研究 ,分析了造成低电阻率油层的因素、测井参数特征及含水率的影响 ,探讨了该区低阻油层分布规律和开发过程中需要注意的问题。
3) well logging data
测井数据
1.
Introduced is basic principle and procedure of Hilbert-Huang Transform(HHT),discussed is application of the HHT in demarcating stratigraphic sequences based on well logging data,and put forward are method of HHT of well logging data and a new way of dividing stratigraphic sequences based on the HHT.
介绍了HHT变换(Hilbert-Huang Transform)的基本原理和步骤,探讨了测井信号HHT变换在高分辨率层序地层划分中的应用,提出对测井数据进行HHT变换,并将其处理结果用于层序划分的方法。
2.
This paper discusses applications of fractal analyses in well logging data, and particularly some related problems which are prone to causing misunderstandings and errors.
讨论了测井数据的分形分析中经常遇到而又容易产生误差的问题,特别是重标度极差分析和功率谱分析方法中的不一致性以及在分形分析中如何处理原始测井数据。
3.
The efficiency of accessing to well logging data is very important to well logging software,and the application of variable data structures to the logging software become very popular.
测井数据的高效访问直接关系到测井软件的执行效率,高效的数据结构在测井软件中的应用是数控测井软件的研究方向。
4) drilling parameters
钻井参数
1.
, drilling parameters reasonably matched well, polymer clay free drilling fluid injected-time prolonged, drilling bit types .
通过合理匹配钻井参数、延长聚合物无固相钻井液的使用时间、优选钻头类型、提高钻井液抑制性、改善钻具结构等技术措施,极大地提高了该地区的钻井速度,平均机械钻速提高到现在的12m/h以上,缩短了钻井周期,达到了预期的效果。
2.
Based on principle of modularized design,the article discusses how to divide modules of drilling parameters instrument,rules of design and the main work of design.
文章以模块化设计原理为基础,讨论了钻井参数仪的模块划分,模块化设计准则和主要设计内容。
3.
Starting from the view point of practical application, based on large amount of pressure well logging data home and abroad, the author demonstrated how to distinguish over-pressure formations using wellsite data, through selected methods such as drilling parameters, rock fragment analysis, drilling fluid parameters, and electric well-logging.
本文从现场实用性的角度出发,综合国内外大量压力录井资料,其中,选取了部分常用的压力评价方法,如钻井参数、岩屑分析、钻井液参数、电测井等,对如何利用现场资料来判断超压层进行阐述。
5) Digital logging
数字测井
1.
Digital logging is employed to establish up finestra density model,permeability model and mud contain quantity model Each section of available finestra density,permeability and mud contain quantity etc.
采用数字测井,建立孔隙度模型、渗透率模型和泥质含量模型,由测井直接获得了各分层有效孔隙度、渗透率、泥质含量等资料,对含矿含水层进行了更为详细的岩性划分,为地浸采铀的工艺生产、技术管理提供准确的信息资料。
6) parameter well
参数井
1.
The application instance of wireline coring technique was introduced with the project case of coal-bed methane parameter well in Baotian-Qingshan area of Guizhou,the drilling techniques were brought forward in accordance with complex formation,unstable borehole wall,being hard to core in coal powder.
以贵州保田-青山煤层气参数井工程为实例,介绍了绳索取心工艺在该区的应用情况,并针对地层复杂、孔壁不稳定、粉煤取心困难等工程难点,提出相应的工艺技术。
2.
Aimed at general situation of CBM in Qinshui Basin,strata condition and exploitation condition,introduced parameter well,producing well,multi-bran chsurface CBM horizontal development well and cluster wells drilling technology,drilling tool assemblage,well structure and well quality requirements.
针对沁水盆地煤层气概况,地层情况及开采条件,介绍了参数井、生产井、多分支地面煤层气水平开发井、丛式井等钻井工艺、钻具组合、井身结构及井身质量要求。
3.
Coal bed gas parameter well SPMT-1 is located at the Shiping well field, Guxu mining area, South Sichuan Coal Field.
SPMT - 1号煤层气参数井位于川南煤田古叙矿区石屏井田。
补充资料:白银有色金属公司深部铜矿主井和副井
白银有色金属公司深部铜矿主井和副井
白银有色金属公司深部铜矿主井和副井
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