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重复地层测试
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  repeated formation tests
     According to the composite analysis for information of drill stem tests, repeated formation tests,vitrinite reflectances(RO),fluid inclusions and clay minerals X-ray diffusions,some facts have been found as the following:(1)four events of thermal fluid flows occurred in YA13-1 gas field of Yinggehai-Qiongdongnan basins, South China Sea;
     根据钻井中途测试(DST)、重复地层测试(RFT)、镜质体反射率(R0)、流体包裹体分析和粘土矿物X射线衍射全定量分析等综合研究发现,莺-琼盆地YA13-1气田存在4期热流体活动;
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  相似匹配句对
     Time Effective Analytical Method for Formation Test
     地层测试时效分析方法
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     Test
     测试
短句来源
     STRATUM
     地层
短句来源
     Well Test Technology for Low Permeability Formation with Abnormal High Pressure
     异常高压低渗透地层测试工艺技术
短句来源
     VALUE-ADDED TESTING
     增值测试
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Wireline repeat formation tester (RFT) is mainly used for reservoir pressure measuring and reservoir fluids sampling. Taking the tectonic and lithologic deposit of Y oilfield in a certain area as an example, the use of RFT data in reservoir description is presented in this paper. RFT data may be used to describe the,pressure distribution, dynamic behaviours after trial production, change in oil saturation. production capability, as well as the characteristics and classification of the reservoirs. RFT data may...

Wireline repeat formation tester (RFT) is mainly used for reservoir pressure measuring and reservoir fluids sampling. Taking the tectonic and lithologic deposit of Y oilfield in a certain area as an example, the use of RFT data in reservoir description is presented in this paper. RFT data may be used to describe the,pressure distribution, dynamic behaviours after trial production, change in oil saturation. production capability, as well as the characteristics and classification of the reservoirs. RFT data may also be applied to reservoir performance assessment.

电缆式重复地层测试器(RFT)主要用于裸眼井测量储层压力及地层流体取样。文中以某地区Y油田的构造及岩性油气藏为例,利用RFT资料对储层特征、类型、压力分布及试采后油藏的动态情况、含油饱和度变化及储层产能等进行储层描述及油藏的静态、动态评价,从而扩展了RFT资料的用途。图7表2参2

According to the composite analysis for information of drill stem tests, repeated formation tests,vitrinite reflectances(RO),fluid inclusions and clay minerals X-ray diffusions,some facts have been found as the following:(1)four events of thermal fluid flows occurred in YA13-1 gas field of Yinggehai-Qiongdongnan basins, South China Sea;(2)the thermal fluids came from two sources,the southern Yanan sag and the western Yinggehai basin;(3)the thermal fluid flows,as the mode of forced convection, have not only caused...

According to the composite analysis for information of drill stem tests, repeated formation tests,vitrinite reflectances(RO),fluid inclusions and clay minerals X-ray diffusions,some facts have been found as the following:(1)four events of thermal fluid flows occurred in YA13-1 gas field of Yinggehai-Qiongdongnan basins, South China Sea;(2)the thermal fluids came from two sources,the southern Yanan sag and the western Yinggehai basin;(3)the thermal fluid flows,as the mode of forced convection, have not only caused the thermal anomaly,but also resulted in different organic/inorganic diagenetic responses in YA13-1 area,e.g.periodic dissolutions of skeletal grains and overgrowth of K-feldspar and quartz,clay mineral transformation and anomalies of organic matter pyrolysis maturation in source rocks.In addition,the thermal fluid convections and exsolution during the second and third events led to the natural gas accumulation with great content and enhanced the quality of the reservoirs of Lingshui Formation im YA13-1 gas field.

根据钻井中途测试(DST)、重复地层测试(RFT)、镜质体反射率(R0)、流体包裹体分析和粘土矿物X射线衍射全定量分析等综合研究发现,莺-琼盆地YA13-1气田存在4期热流体活动;南侧的崖南地区和西侧的莺歌海盆地是其两个重要的热流体物质源和动力源;多期热流体活动在YA13-1地区不仅造成热异常和物质迁移,而且还引起了不同的有机/无机成岩响应,如骨架颗粒的多期溶蚀作用、至少两期的次生加大作用、粘土矿物转化和有机质热成熟作用异常。第二、第三期热流体因出溶作用形成YA13-1气田大规模的天然气聚集。

At present, the condensate reservoirs

塔里木盆地地质情况复杂,油气类型多种多样,目前已在多套层系发现了凝析油气藏;利用常规测井资料解释评价油气层,能够有效地识别并确定油气层和水层的界限,但却无法区分气层还是油层,以及如何准确划分油、气界面。电缆重复地层测试测井通过测量地层压力,建立压力—深度剖面,根据其压力梯度变化估算出地层流体性质,划分油、气水界面;中子、密度测井测量的地层含氢指数与地层介质的电子密度指数由于氢元素的存在而体现了很好的相关性,利用该相关性质可以确定地层液体含量(孔隙度),识别流体类型;偶极横波成像测井提供了当今测量地层纵波、横波和斯通利波的最好方法,通过对全波的处理,可以提取大量的岩石机械特性,由于气层对纵横波速度的影响不同,因此可以利用纵横波速度比、泊松比来直观识别油气层,划分油、气界面。通过对以上测井方法基本理论的阐述,并在实例中应用新方法解决了常规测井资料无法解决的难题。研究结果表明,利用测井新技术、新思路,结合常规测井资料能够有效识别凝析气层,准确划分油气界面。

 
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