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深层稠油
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  deep heavy oil
     Feasibility of recovery deep heavy oil by hot water plus N_2 foam slug
     深层稠油热水添加N_2泡沫段塞驱开采可行性研究
短句来源
     Study on numerical simulation tracing steam drive in deep heavy oil reservoir in Gaosheng oil field
     高升油田深层稠油油藏蒸汽驱跟踪数值模拟研究
短句来源
     Because of great depth oi heavy oil reservoir, high steam injection pressure, huge well heat loss, and the only 1400m of maximal setting depth of heat isolating tubing in a vertical well, current normal steam-injection pipes cannot inject steam with heat insulation for deep heavy oil reservoir over depth of 2000m, which makes much more heat loss in steam injection wellbore.
     深层稠油油藏埋藏深、注汽压力高、注汽井筒热损失大,同时由于直井中隔热油管的最大下深只有1400m,目前常用的注汽管柱对于埋深超过2000m的深层稠油油藏不能实现全井筒隔热注汽,这会使注汽井筒热损失更大。
短句来源
     Design of Steam Injection Pipe Set for Producing Deep Heavy Oil under Over Critical Pressure
     深层稠油超临界压力注汽管柱设计
短句来源
     Regarding deep heavy oil reservoir, gas injection effect is worse because of its deep deposition, high viscosity, the higher gas injection pressure required for reservoir to efficient suction than normal rating discharge pressure of boiler.
     深层稠油油藏由于储层埋藏深、原油粘度高,油层有效吸汽所需的注汽压力往往高于常规注汽锅炉出口的额定压力,导致注气效果较差。
短句来源
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  deep heavy oil reservoir
     Study on numerical simulation tracing steam drive in deep heavy oil reservoir in Gaosheng oil field
     高升油田深层稠油油藏蒸汽驱跟踪数值模拟研究
短句来源
     An approach to rational well spacing for steam soaking development in middle deep heavy oil reservoir
     中深层稠油油藏蒸汽吞吐开发的合理井距探讨
短句来源
     Regarding deep heavy oil reservoir, gas injection effect is worse because of its deep deposition, high viscosity, the higher gas injection pressure required for reservoir to efficient suction than normal rating discharge pressure of boiler.
     深层稠油油藏由于储层埋藏深、原油粘度高,油层有效吸汽所需的注汽压力往往高于常规注汽锅炉出口的额定压力,导致注气效果较差。
短句来源
     The feasibility of improving recovery factor of deep heavy oil reservoir by hot water plus N_2 foam slug is studied by using physical modeling for thermal recovery.
     针对深层稠油油藏 ,利用热采物理模拟技术 ,研究了热水添加N2 泡沫段塞驱提高采收率的可行性。
短句来源
     Because of great depth oi heavy oil reservoir, high steam injection pressure, huge well heat loss, and the only 1400m of maximal setting depth of heat isolating tubing in a vertical well, current normal steam-injection pipes cannot inject steam with heat insulation for deep heavy oil reservoir over depth of 2000m, which makes much more heat loss in steam injection wellbore.
     深层稠油油藏埋藏深、注汽压力高、注汽井筒热损失大,同时由于直井中隔热油管的最大下深只有1400m,目前常用的注汽管柱对于埋深超过2000m的深层稠油油藏不能实现全井筒隔热注汽,这会使注汽井筒热损失更大。
短句来源
  “深层稠油”译为未确定词的双语例句
     A FEASIBILITY STUDY ON EXPLOITATION OF DEEP HEAVY-OIL RESERVOIR BY CO_2 INJECTION
     深层稠油油藏注CO_2开采可行性研究——以辽河油田冷42块稠油油藏为例
短句来源
     THE CO_2 CYCLIC STIMULATION INVESTIGATION AND TRIAL IN DEEP-SEATED VISCOUS OIL RESERVOIR
     深层稠油油藏CO_2吞吐采油工艺试验
短句来源
     The Fracturing Enhancement Technology for Deep Heavy Reservoir in Yu 1 Block
     玉1块深层稠油油藏压裂增产技术研究与试验
短句来源
     DESIGN METHOD FOR LIFTING HEAVY OIL BY MIXING LIGHT HYDROCARBON IN HOLLOW ROD
     空心杆掺稀油深层稠油举升设计方法研究
短句来源
     As a result, the CO 2 injection is an effetive method to enhance recovery from the deep heavy_oil reservoir in Leng 42 block, and an appropriate CO 2 source is necessary for adoption of this method.
     结果表明 ,注CO2 是冷 4 2块深层稠油油藏提高采收率的有效方法 ,合适的CO2 气源是实施注CO2 开采的必要条件
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For the medium deeply buried heavy oil reservoirs of Gaosheng oil field, the main recovery method is still steam huff and puff due to the comparably poor quality of steam at bottom hole during oil recovery by steam injection. This paper analyses the current well spacing and production performance of Gao-3 block in Gaosheng oil field and presents the result of studying rea sonable well spacing of cyclic steam stimulation by means of numerical simulation and the calculation of reservoir heat ba lance. This result...

For the medium deeply buried heavy oil reservoirs of Gaosheng oil field, the main recovery method is still steam huff and puff due to the comparably poor quality of steam at bottom hole during oil recovery by steam injection. This paper analyses the current well spacing and production performance of Gao-3 block in Gaosheng oil field and presents the result of studying rea sonable well spacing of cyclic steam stimulation by means of numerical simulation and the calculation of reservoir heat ba lance. This result indicates that the current oil recovery can be increased effectively and economically by drilling proper in fill wells for cyclic steam stimulation.

高升油田为中深层稠油油藏,注蒸汽开采一般井底蒸汽干度较低,目前仍以蒸汽吞吐生产为主。分析了高升油田高三块目前井网密度和生产现状,通过数值模拟方法和油藏热平衡法,以目前井网、井距为基础,系统地对注蒸汽吞吐井网密度进行了研究,其结果表明:合理地钻加密吞吐井,可经济有效地提高采出程度。

This paper studies hot waterflooding experiment by technologies of core analysis, log interpretation, geostatist ics analysis, and numerical simulation accordi ng to development geologic theory, reservoir engineering theory , and on-site monitoring technology. All theinterpretation and analysis results verifies each other, they are causality. Shortcomings of fanning out from point to area simply according to core analysis,and multi-interpretations suchas log interpretation and reservoir numerical simulation...

This paper studies hot waterflooding experiment by technologies of core analysis, log interpretation, geostatist ics analysis, and numerical simulation accordi ng to development geologic theory, reservoir engineering theory , and on-site monitoring technology. All theinterpretation and analysis results verifies each other, they are causality. Shortcomings of fanning out from point to area simply according to core analysis,and multi-interpretations suchas log interpretation and reservoir numerical simulation are eliminated. Therfore, analysis accuracy is improvedi This paper provides basis for determining rational development parameters of hot waterflooding in deep heavy oil reservoirs, and also improves the reliability ofmodel prediction.

利用开发地质理论、油藏工程理论、现场监测技术,把岩心分析、测井解释、地质统计学分析、数值模拟等技术融为一体,对高升油田热水驱井组试验进行研究。各种解释分析结果相互验证,互为因果;消除了岩心分析以点代面、测井解释、油藏数值模拟等多解性的缺陷,提高了分析的精度。为确定深层稠油油藏热水驱的合理开发指标提供了依据;同时提高了模拟预测结果的可信性。

Method\ Numerical stimulation is used to carry out

方法运用数值模拟方法,对吐哈油区吐玉克深层稠油油田进行了化学段塞驱开采方式优化研究。目的选择合理的开发方式,提高该油藏的原油采收率。结果研究表明,该油藏化学段塞驱可比水驱提高采收率4%左右,化学驱采用低浓度小段塞较为适宜,200m井距比300m井距缩短一半的生产时间。结论在一定的优惠政策下,化学段塞驱是一种可供选择的技术和经济有效的开发方式。但在当前技术条件下,应开辟先导试验井组进行系统的现场试验,以便取得定量的结果和充分论证该方式的可行性

 
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