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   deep profile controlling 的翻译结果: 查询用时:0.187秒
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deep profile controlling
相关语句
  深部调剖
     Study and application of deep profile controlling agent in the SZ36-1 Oilfield,Bohai Bay Basin
     渤海SZ36-1油藏深部调剖剂研究与应用
短句来源
     This paper designs different physical models according to the geologic characteristic of the thick reservoirs in Daqing Oil Field. Using these models, it studies the potentiality of internal profile controlling of thick reservoirs, compares the effect of water flooding, polymer flooding and weak gel profile controlling in different permeability condition, and analyzes the effecting factors of deep profile controlling in different reservoir condition.
     针对大庆油田厚油层地质特点 ,设计了不同的物理模型 ,并利用该模型研究了厚油层层内调剖的潜力以及不同渗透率下 ,水驱、聚合物驱与弱凝胶调剖的效果对比 ,并对不同油藏条件下的深部调剖影响因素进行了分析。
短句来源
     Using polymer reutilization technique, inject polymer reutilization agent to the underground, which re-acted with the polymer to form the jam of floculating and crosslinking to achieve deep profile controlling.
     采用聚合物再利用技术,通过注入聚合物再利用剂,与地下残留聚合物形成絮凝体和交联体引起堵塞,达到深部调剖的目的。
短句来源
     As the conventional deep profile controlling agents do not meet the requirements of the reservoir,a new salt-resisting and instant-dissolving deep profile controlling crosslinked gellant,RNSTP-CTm,consisiting of pectinal salt-resisting polymer,resorcin and compound adjuvant,was developed.
     研制出抗盐速溶交联聚合物弱凝胶深部调剖剂(RNSTP-CTm),它由梳形抗盐聚合物、间苯二酚及复合助剂等组成。
短句来源
  “deep profile controlling”译为未确定词的双语例句
     The performance of STP hard-gel in deep profile controlling
     STP强凝胶调剖剂的深度调剖性能
短句来源
     The Performance of CDG System in Deep Profile Controlling
     CDG体系的深度调剖性能研究
短句来源
     On the base of experiments in laboratory and study of numerical simulation, we take the forerunning test of technical study of oily sludge depth injection profile adjustment in xing58 fault block, accumulative totally increase gas production by 1421t, totally devotion to outputting ration get 1:3. We take whole deep profile controlling in xing212,209 fault block and xing212-l rejection well group, and get good results.
     在室内实验和油藏工程研究的基础上,首先在兴58断块进行含油污泥深度调剖先导性试验,累计增产油气当量1421t,总投入产出比达到1:3。 在此基础上,选择兴212、209断块和兴212-1井实施整体深度调剖,并取得了较好的生产效果。
短句来源
     2 HPAM, 13, 000,000 of molecular weight, 500 mg/L of neat water and 30: 1 of the ratio of polymer to aluminum. Deep profile controlling oil - displacement experiments were carried out in the heterogeneous models with or without separation layer respectively. It was indicated that the oil recovery could be further enhanced as the sealed depth had been increased.
     采用优选的配方2号HPAM,相对分子质量1300万,清水浓度500mg/L,聚铝比30∶1,进行有、无隔层的非均质油藏深度调剖驱油实验,表明逐步增大封堵深度可以进一步提高油层采收率。
短句来源
  相似匹配句对
     The Performance of CDG System in Deep Profile Controlling
     CDG体系的深度调剖性能研究
短句来源
     The performance of STP hard-gel in deep profile controlling
     STP强凝胶调剖剂的深度调剖性能
短句来源
     Controlling F.
     因此控制F.
短句来源
     Controlling the profile lathe with PLC
     仿形车床的PLC控制
短句来源
     THE EXPLORATION OF DEEP FAULT CONTROLLING ROCK AND ORE
     深断裂控岩控矿问题探讨
短句来源
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This paper designs different physical models according to the geologic characteristic of the thick reservoirs in Daqing Oil Field. Using these models, it studies the potentiality of internal profile controlling of thick reservoirs, compares the effect of water flooding, polymer flooding and weak gel profile controlling in different permeability condition, and analyzes the effecting factors of deep profile controlling in different reservoir condition.

针对大庆油田厚油层地质特点 ,设计了不同的物理模型 ,并利用该模型研究了厚油层层内调剖的潜力以及不同渗透率下 ,水驱、聚合物驱与弱凝胶调剖的效果对比 ,并对不同油藏条件下的深部调剖影响因素进行了分析。

In Gudao oil field, after polymer flooding , water fingering phenomenon is usually found and water outs quickly from oil well. Residual polymer will also pollute the ground environment when outputted from the oil well. Using polymer reutilization technique, inject polymer reutilization agent to the underground, which re-acted with the polymer to form the jam of floculating and crosslinking to achieve deep profile controlling. The locale experiment indicates that the results on two inject wells are good...

In Gudao oil field, after polymer flooding , water fingering phenomenon is usually found and water outs quickly from oil well. Residual polymer will also pollute the ground environment when outputted from the oil well. Using polymer reutilization technique, inject polymer reutilization agent to the underground, which re-acted with the polymer to form the jam of floculating and crosslinking to achieve deep profile controlling. The locale experiment indicates that the results on two inject wells are good to use the polymer reutilization technique. The start - up pressure rises 2. 3 MPa averagely, absorb index drops 39. 5m3/( d. MPa) , daily oil production increases 0. 5 t, water cut drops 2. 0%. Therefore, the polymer reutilization technique is an useful IOR technique, and has an amplitude application future.

针对孤岛油田聚合物驱后转水驱易发生指进现象,油井水淹速度快;地下残留大量聚合物从油井产出造成地面环境污染等问题。采用聚合物再利用技术,通过注入聚合物再利用剂,与地下残留聚合物形成絮凝体和交联体引起堵塞,达到深部调剖的目的。现场试验结果表明,对两口注水井实施聚合物再利用技术,取得了较好的效果。注水启动压力平均上升了2.3MPa,吸水指数平均下降了39.5m3/(d.MPa),平均日增油0.5t,平均含水下降2.0%。聚合物再利用技术是油田聚合物驱后可接替的提高采收率技术,有广阔的应用前景。

The viscosity and transmission pressure of CDG systems were measured to 100 mPa. s and 0.05MPa after 15 days, and the resistance coefficient and the residual resistance coefficient had ascended sharply during the water flooding experiments in short - size cores. The results showed that the CDG systems were able to make gelation effectively and hold an enough long time, the a-mount of injection and the strength of gel could be approached. The choiced formula was: No. 2 HPAM, 13, 000,000 of molecular weight, 500...

The viscosity and transmission pressure of CDG systems were measured to 100 mPa. s and 0.05MPa after 15 days, and the resistance coefficient and the residual resistance coefficient had ascended sharply during the water flooding experiments in short - size cores. The results showed that the CDG systems were able to make gelation effectively and hold an enough long time, the a-mount of injection and the strength of gel could be approached. The choiced formula was: No. 2 HPAM, 13, 000,000 of molecular weight, 500 mg/L of neat water and 30: 1 of the ratio of polymer to aluminum. Deep profile controlling oil - displacement experiments were carried out in the heterogeneous models with or without separation layer respectively. It was indicated that the oil recovery could be further enhanced as the sealed depth had been increased.

对三种聚合物配制的CDG体系进行粘度和转变压力测定,发现三种CDG体系在配制15天后均能达到100mPa.s或以上粘度及0.05MPa以上的转变压力;在短岩心动态实验中,CDG体系的阻力系数和残余阻力系数都上升较高,说明了CDG体系可以有效的成胶并具有较长的凝结时间,达到需要的注入剂量和凝胶强度,满足实验要求。采用优选的配方2号HPAM,相对分子质量1300万,清水浓度500mg/L,聚铝比30∶1,进行有、无隔层的非均质油藏深度调剖驱油实验,表明逐步增大封堵深度可以进一步提高油层采收率。

 
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