油气田

yóu qìtián
  • pool;oil and gas field
油气田油气田
油气田 [yóu qì tián]
  • [pool] 一片在钻井后能生产石油或天然气的多孔沉积岩

  1. 且末北部有一个从石炭纪以来长期继承性发育的鼻状隆起带,是满加尔坳陷的油气运移指向地区,有可能形成大型复合油气田。

    Besides that , since Carboniferous an inherited and developed nose uplift to north of Qiemo is a direction of oil-gas migration in Man - ja'er depression , which may be possible to form a large scale of com - posite oil-gas pool .

  2. 国际金融危机对天然气行业的影响及应对策略&以中国石油西南油气田公司为例

    Impact of International Financial Crisis on Natural Gas Industry and Coping Strategy & Taking Southwest Oil and Gas Field Company as an Example

  3. 下面所列举的是分布于分流和三角洲前绿砂体的油气田的例子,在地质时代上从晚古生代至中新生代。

    The following examples of oil and gas fields in distributary and delta-fringe sand bodies range in age from Late Paleozoic to middle cenozoic .

  4. GIS在油气田开发管理系统中的扩展实现

    Extended realization of GIS in development and management system of reservoir

  5. 油气田开发中H2S/CO2腐蚀研究进展

    Research progress of H_2S / CO_2 corrosion in oil and gas development

  6. 油气田开发中的CO2腐蚀及防护技术

    CO_2 Corrosion and Protection Technology in Oil and Gas Field

  7. 预测油气田产量和可采储量的F模型

    The F-model for predicting production rate and reserves of oil and gas fields

  8. 基于CORBA的油气田异构信息系统多源集成

    Multi-Resources Integration of Heterogeneous Configuration Information System for Oil and Gas Field Based on CORBA

  9. CT降滤失酸是西南油气田分公司天然气研究院近年来研制的一种新型酸液体系。

    CT fluid loss acid is a new acid liquid system developed by the Natural Gas Institute of PCL Southwest Branch in the resent years .

  10. 特高含硫油气田废水中阴离子(F-、Cl-、Br-、SO)的离子色谱测定

    Ion chromatograph determination for anions in the high H2S wastewater from the oil and gas fields

  11. 但最近一些低渗透油气田却出现了频繁的CO气体中毒事件,给油田及员工带来巨大的损失。

    Recently , frequent poisoning events of CO were took place in the some low permeable oil-gas field and the crews were hurt seriously .

  12. 针对油气田CO2/H2S腐蚀环境,研制了一种以咪唑啉含硫衍生物、有机硫代磷酸酯为主要组分的复配缓蚀剂TG500。

    The corrosion inhibitor TG 500 was synthesized to the CO2 / H2S corrosion environment of Gas field .

  13. 电镀PDC石油全面钻头及其在油气田中的应用

    Electroplated PDC Bit for Petroleum Full Face Drilling and Its Application in Oil and Gas Fields

  14. 由于油气田的开发与空间地理位置密切相关,因而可以在油气田开发管理过程中引入GIS技术。

    Owing to the close correlation of development of reservoir and spatial geological place , the technology of GIS can be introduced into the process of development and management of reservoir .

  15. 预测油气田产量的Weng旋回及其参数求解方法

    The Method for Solving the Parameters of Weng Cycle to Predict the Production

  16. APIRP2A是海工结构工程师设计过程中必备的武器,必须熟练地掌握和运用。滩浅海油气田海工结构型式分析

    Relevant designers are required to be very familiar with API RP 2A . Analysis of Offshore Structure Type for the Oil and Gas Field in Beach and Shallow water

  17. 介绍了油气田油管输送射孔(TCP)的构成,分析了TCP常用起爆器起爆机理及在生产应用中存在的问题。

    Briefly introduces the structure of tubing conveyed perforating ( TCP ) guns ; Analyses the initiation mechanism of normal TCP guns and problems existing in production and application ;

  18. 主要从地图投影转换、图层叠加、三维地质模型、地图浏览回放几个方面来阐述如何利用其他技术来实现GIS在油气田开发管理中的扩展。

    This paper expatiates how to use other techniques to extend GIS in development and management in reservoir mainly from map projection transformation , layers of map piling up , and three-dimensional model to repeating playing maps , etc.

  19. bp计划出售一些成熟的石油与天然气田,这些油气田对于专长于管理这类资产的小型公司更有价值,而bp将保留那些它认为具有成长潜力的油气田。

    It plans to sell mature oil and gas fields , which can be worth more to smaller companies that specialise in managing those assets , leaving BP with fields that it believes have potential for growth .

  20. 本文就GIS在油气田开发中的应用展开研究,在GIS支持下设计和开发油藏动态分析系统,服务于油气田勘探开发信息化建设。

    This article mainly discusses the application of GIS in oil field development . For example , with support of GIS we can design and develop dynamic analysis system of oil reservoir to serve information construction of oil exploration .

  21. FPSO被广泛地用于浅海、深海和边际油气田的开发,油气资源通过穿梭油轮转运到岸上。

    FPSO has been widely used in shallow , deep water and marginal oil and gas field development . Oil and gas resources usually are transported to shore by shuttle tankers .

  22. 其主要结构包括:远程测控终端(RTU)、通讯网络、控制中心站,是自动化控制技术在油气田生产、管线管理调度等领域中的一个分支。

    Its main structures include remote monitoring Terminal ( RTU ), communications networks , Control Center , automatic control technology in oil production , pipeline management control areas , a branch .

  23. 这种LPG产自油气田,但油气田生产的LPG不足。因此,人们把眼光投向炼油厂甚至石油化工厂,希望从其获得无(低)烯烃LPG。

    But the LPG produced in oil and gas fields is insufficient , thus people throw a look to refinery even to petrochemical plant and hope to obtain the LPG without alkene ( or with low alkene content ) .

  24. 通过对Usher模型微分方程式的分析,指出目前用于油气田产量预测的Logistic模型和Gompertz模型是Usher模型的两种简化形式;

    Through analyzing the differential equations of Usher Model , it is pointed out that the Logistic Model and Gompertz Model used for production forecast of oil and gas fields at present are the two simplified patterns ;

  25. 首次推导了Usher模型用于油气田产量、累积产量、可采储量和最高年产量及其发生时间的预测数学模型;

    In light of the Usher Model , the mathematical models for predicting the production , cumulative production , recoverable reserves and maximum yearly production and its appearing time of oil and gas fields are derived ;

  26. 体系化管理方法在我国海上油气田开发工程项目健康安全环保管理中的应用&以BZ25-1油田开发工程项目为例

    An application of the systematic method to HSE management of China offshore oilfield engineering

  27. 研制的压裂液体系可以满足莫北油气田复杂地层压裂改造的需要,并获得较好的增产效果,高温低摩阻油基压裂液和高温表面活性剂压裂液在4000m井的应用开国内先河。

    High temperature low friction oil-base fracturing fluid and high temperature surfactant fracturing fluid was first used in the formation with depth of more than 4000m in China .

  28. 综合地震属性分析在JZS油气田太古界变质岩潜山储层预测中的应用

    Application of comprehensive seismic attributes analysis in prediction of Archaean metamorphic rock buried-hill reservoir in JZS oil / gas field

  29. 针对油气田轻烃中组分数较多的特点,从精度、时间、通用性三方面综合考虑,采用SRK或PR方程计算混合物的汽液平衡常数;

    In this thesis , comparison among several equation of state has been carried out . Considering precision , time and universality , PR or SRK is selected to calculate the phase equilibrium constant of the mixture .

  30. 本文针对油气田储集层保护的复杂应用需求,基于分布式Client/Server计算机模型,设计了相应的分布式智能应用系统DIAS,实现了计算资源共事和知识、数据共享。

    In this paper , according to the needs of formation damage protection for oil and gas , based on distributed Client / Server computer model , a distributed intelligent application system ( DIAS ) has heen developed . In this system , data and knowledge can be shared .