片语

thermal oil recovery热力采油

Thermal Oxidation Recovery Technology热氧化还原技术

thermal l recovery unit热量回收设备

Thermal l recovery热回收

Thermal E recovery热回收

thermal-recovery oil-well热采井

thermal energy recovery热能回收

英汉例句

• There are technical and economical hazards in the thermal recovery of this type of reservoirs.

  这类稠油油藏注蒸汽开采，在技术和经济上存在很大的风险性。

• The main of heavy oil recovery is steam injection of thermal recovery in China and its output is exceeded 80 percents.

  我国稠油开采以注蒸汽热采为主，其产量超过稠油产量的80%。

• The experimental results of the thermal recovery of the wavefront distortion using the single segment amplifier (SSA) test bed and the Hatamann wavefront sensor are reported.

  给出了在单口径片状放大器（SSA）实验平台上利用哈特曼波前传感器进行热恢复研究的实验结果。

• It has the advantages of low cost and simple technical process and can fill the depleted reservoirs. It is suitable for sand control in thermal recovery heavy oil Wells in high - cycle huff and puff.

  该防砂技术具有费用低、工艺简便、见效快、填补油层亏空等特点，适应稠油油藏热采高周期吞吐油井防砂。

• Casing is heated by steam in thermal recovery Wells. There are thermal stresses in casing. Casing deforms when stresses exceed yield point.

  计算表明，注蒸汽稠油井如果用常规方法固井，在通常的注汽温度下，套管都因热应力而产生屈服变形。

• In situ combustion is an important method for thermal recovery of viscous oil reservoir, the key of success is sand face ignition.

  火烧油层是热力开采稠油油藏的重要方法，其成功的关键是油层点火。

• Steamflooding is the main important stage in the thermal recovery of heavy oil reservoir, which can further enhance the recovery of heavy oil.

  蒸汽驱是稠油油藏经过蒸汽吞吐开采后进一步提高原油采收率的主要热采阶段。

• Wangzhuang oilfield is a typical representative of water-sensitive heavy oil reservoir. The change of water sensitivity during thermal recovery process directly relates to oilfield development scheme.

  王庄油田是水敏性稠油油藏的典型代表，其水敏性在热采过程中的变化直接关系到油田开发方式的选择。

• Thermal recovery boiler operation dryness is an important parameter, which affects the accuracy of thermal recovery boiler operation safety and the effect of heating oil.

  热采锅炉的运转中干度是一个紧要参数，其切确水平浸染着热采锅炉运行的和平性和热力采油的效益。

• This paper studies effect of water-rock reaction on heavy oil reservoir during steam soaking in single well by modeling changement of quartz particle in autoclave under thermal recovery condition.

  利用高压釜模拟热采条件下石英颗粒的变化情况，研究单井吞吐过程中水巖反应对稠油储层的影响。

• The test unit for downhole tools for heavy oil thermal recovery consists of test stand and control mechanism.

  稠油热采井下工具试验装置由井下工具试验台架和测试控制系统组成。

• Through optimization of numerical simulation, thermal recovery design and corresponding oil recovery technology, the reasonable development policy is determined and some good results have been gained.

  通过数值模拟优化、热力开采设计及相应的采油工艺配套设计，确定了合理开发对策，取得了较好开发效果。

• H2S is a highly toxic and highly corrosive gases. In recent years H2S has been found in some areas of Liaohe Oilfield, especially in heavy oil thermal recovery block.

  硫化氢是一种剧毒和较强腐蚀性的气体，近年来在辽河油田一些地区相继出现，特别是稠油热采区块出现了较高浓度的硫化氢。

• Casing failure mechanisms of thermal recovery Wells in sand production have become a problem to be urgently solved in heavy reservoir thermal recovery production.

  热采井出砂套管损坏机理已成为稠油热采生产中迫切需要解决的问题。

• Most of the models calculating casing thermal stress in thermal recovery well belong in a monoaxial stress analysis because of neglecting the effect of formation.

  许多热采井套管热应力计算模型忽略了地层影响，属于单轴热应力分析。

• The wellbore stability, fracturing, cementing strength, and casing failure during thermal recovery are affected by thermal stress.

  井壁热应力对于井壁稳定性、水力压裂、水泥环胶结强度、热采套管的损害等都有影响。

• A model is established to calculate the steam quality distribution along the well bore during steam injection of thermal recovery Wells, based on related thermodynamics and hydromechanics principles.

  利用热力学、流体力学原理，建立了热采井注汽过程井筒沿程蒸汽干度分布计算模型。

• Test research shows that it is effective to choose different set and sealing materials for different on-site working conditions with the thermal recovery of viscous oil.

  试验研究表明，根据不同工况选择不同的装置及密封材料对稠油热采井口是行之有效的。

• The temperature calculation is conformity with reality. The test showed that the artificial lift method had a better thermal recovery effect.

  试验表明：温度计算与实际相符，举升方法具有较好的热力采油效果。