油气井

  • 网络oil and gas wells;oil well
油气井油气井
  1. 迭代法计算油气井密闭环空压力

    Calculating the pressure in sealed annulus in oil well by iterative method

  2. 半导体桥火工品在油气井中的应用

    Application of Semiconductor Bridge Pyrotechnics for Oil Well

  3. 抗CO2腐蚀油气井缓蚀剂的研究与应用

    Research and Application of Carbon Dioxide Corrosion Inhibitor for Oil and Gas Well

  4. 油气井套管CO2点状腐蚀剩余强度分析

    Analysis on residual strength of co_2 tubercular corrosion for casings of oil / gas wells

  5. 咪唑啉衍生物在含H2S/CO2油气井环境中的缓蚀行为研究

    Research on the inhibition behavior of imidazoline derivant in the oil / gas well containing h_2s / co_2

  6. TCP射孔工艺技术是油气井射孔技术的发展方向。

    The technology of TCP perforation is a development orientation for completion of the wells .

  7. 对油气井油管、套管ISO新抗挤模型的研究

    A new ISO collapse-resistance model of casing and tubing in oil and gas wells

  8. 基于OpenGL的油气井管杆三维可视化诊断平台的开发

    Development of 3D Visual Diagnostic Platform for Oil and Gas Wells Tube Based on OpenGL

  9. 理论研究和监测实践证明微地震数据采集器的设计是合理的,SET方法用于油气井水力压裂裂缝监测效果是良好的。

    Theoretical research and field application has proved that the design of the microseismic data recorder is reasonable , the effect of the SET method used for oil and gas wells fracture monitoring is good .

  10. 最后以F井和W井为例,对该油气井的压裂过程进行地面微地震监测并采用SET法对微地震信号进行震源定位计算,勾画出压裂裂缝形态。

    Finally , the microseismic data recorder and SET method were applied in the F well and W well to monitor microseismic and determine hypocenter during the fracturing procedure .

  11. 另外对于含有CO2腐蚀的高温油气井,国内外常采用特种水泥体系。

    In addition , the particular cement was normal in the high temperature well to prevent the corrosion attack of CO-2 home and abroad .

  12. 油气井地面管道防蚀的新方法3M研磨产品在航空维护中的应用

    A new method for protecting ground pipeline of oil and gas wells from abrasive erosion 3M Abrasive Products

  13. GR射孔是在油气井进行射孔作业时使用自然GR曲线完成深度定位的一种射孔方式。

    GR perforation is one of perforation program that uses nature gamma ray ( GR ) log for depth determination in perforation operation .

  14. 油气井高能气体压裂P-t测试仪的应用研究

    The research of application of P-T test instrument for high energy gas fracture of oil and gas well

  15. 文中从油气井开发提高效率、降低费用的技术要求出发,论述了采用MTC技术是一条可行的路子。

    In order to raise the production efficiency and reduce the cost of oil and gas wells , adopting the MTC technique is a feasible way .

  16. CT2-4水溶性油气井缓蚀剂的合成与应用研究

    The Synthesis and Application Research of Water Soluble Oil & Gas Well Corrosion inhibitor CT2-4

  17. 并且通过对国内外一些类似的井喷事故原因研究后,提出了有效的防喷措施,为高含量CO2和H2S的油气井钻井作业提供一定参考。

    By investigating the reasons of some similar blowout accidents at home and abroad , the effective blowout prevention measures are proposed , which provide reference for the drilling operation of oil / gas wells with high CO_2 and H_2S contents .

  18. 利用不稳定渗流数学模型预测不同时间产能,从本质上改进了传统的油气井流入动态IPR的预测,建立井筒与油藏耦合作用下的不稳态产能预测方法,从而改进了目前的生产系统分析方法。

    In this paper , transient flow mathematics model is applied to predict the productivity for all time . This approach improves essentially the prediction of IPR , and uses unsteady productivity prediction by coupling reservoir and wellbore method .

  19. 油气井用磁电雷管抗工频试验是为了检测磁电雷管对加载市电(380V,50Hz)的安全性。

    The purpose of industrial electric frequency resistance tests for magnetoelectric detonators is to test the safety of industrial current ( 380 V , 50 Hz ) loaded on magnetoelectric detonators .

  20. G级油井水泥是油气井固井施工应用最为普遍的一种水泥材料,API标准限定其适用深度为0~2240m,温度为0~93℃。

    G Oil-well cement is the kind of cement material which is largely used in oil well and gas well engineering . According to API Standard , it can show a good performance at the depth of 0 ~ 2240m , and the temperature of 0 ~ 93 ℃.

  21. Arps把油气井的产量递减归为指数、双曲和调和递减三种类型,并提出了确定递减参数和预测未来动态的图版拟合方法,但这种方法不能反求地层参数。

    Arps categorized the rate decline of oil and gas well as exponential 、 hyperbolic and harmonic , and brought forward a technique of type-curve matching , which can determine the decline parameters and predict the further performances but cannot obtain the formation parameters .

  22. 考虑人工裂缝的单井数值模拟网格技术(PEBI)可以更加准确地评价压裂增产油气井单井控制储量、单井控制泄流半径,预测油井的生产动态以及对裂缝效果进行敏感性分析。

    Single well numerical simulation network technology with hydraulic fractures in consideration ( PEBI ) can more accurately evaluate the reserves and drainage radius under single well control after fracturing stimulation , predict the performances of oil and gas wells , and analyzes the sensitivity of fractures .

  23. 油气井套管柱的抗震可靠性分析

    Seismic reliability analysis of casing string in oil & gas well

  24. 该井属于典型的高压油气井;

    The well is a typical high pressure oil gas well .

  25. 事故树分析方法在油气井射孔作业中的应用

    Fault Tree Analysis in Perforation Job of Oil and Gas Well

  26. 一种提高油气井生产能力的新方法

    A New Method of Increasing the Production Capacity for Oil-Gas Wells

  27. 油气井工程中地应力场反演研究的发展

    Development of inversion study on in-situ stress field in petroleum engineering

  28. 油气井酸化过程中铁离子的沉淀及其预防

    Precipitation and Prevention of Ferric Ion in Oil-gas Well Acidification Process

  29. 油气井酸化中的储层伤害识别诊断技术研究

    A Study on Oil / Gas Well Damage Identification and Diagnosis

  30. 凝析油气井不稳定试井分析的单相流法

    Single Phase Flow Method of Transient Testing Analysis for Condensate Wells