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高产井地层特征的热流耦合温度反演新方法
引用本文:毛新军,曹植纲,陈超峰,胡广文,封猛,咸玉席.高产井地层特征的热流耦合温度反演新方法[J].石油钻探技术,2020,48(4):118-123.
作者姓名:毛新军  曹植纲  陈超峰  胡广文  封猛  咸玉席
作者单位:1.中国石油新疆油田分公司勘探事业部,新疆克拉玛依 834000
基金项目:国家科技重大专项“致密油藏多尺度介质复杂结构井数值试井分析及应用研究”(编号:2017ZX05009-005-002)资助
摘    要:高探1井试油时,井底流体温度随着产量增大而升高,而现有测试资料分析方法无法解释该现象。为此,根据质量和能量守恒方程,考虑高温流体在地层中的渗流规律和在井筒内的流动规律、渗流和流动时的传热,建立了储层和井筒的热流耦合模型,利用该模型分析了温度瞬态数据,反演了高产井地层温度。高探1井的生产压力和温度数据反演结果表明,反演得到的温度曲线与实测温度曲线吻合良好,可以解释井底流体温度随产量升高的现象。研究表明,高产井地层特征温度反演方法能够定量分析地层热力学和渗流参数、确定高产井流体的产出位置,为生产管柱安全评价、现场生产决策、油藏认识和储量计算提供了理论依据。 

关 键 词:高产井    热流动    耦合    温度    反演    数学模型    高探1井
收稿时间:2019-12-15

A New Thermal Fluid Coupling Temperature Inversion for the Formation Characteristics of High-Yield Wells
Affiliation:1.Division of Exploration, PetroChina Xinjiang Oilfield Company, Karamay, Xinjiang, 834000, China2.Center for Petroleum and Natural Gas Research, University of Science and Technology of China, Hefei, Anhui, 230022, China3.Well Tsting Company, Western Drilling Engineering Co., Ltd. of CNPC, Karamay, Xinjiang, 834000, China
Abstract:It was found during the oil test of Well Gaotan-1 that the temperature of bottomhole fluids increased with production, which cannot be explained by existing test data and analysis methods. Therefore, based on the conservation equations of mass and energy and according to the seepage flow law of high-temperature fluid in the formation, the flow law in the wellbore and the heat transfer during the seepage and flow, a model of thermal flow coupling between the wellbore and reservoir was established, and a method for inversion of formation temperature in high-yield wells was proposed by analyzing transient temperature data. This method was used to invert the production pressure and temperature data of Well Gaotan-1, and the temperature curve of the inversion was highly consistent with the measured temperature curve of Well Gaotan-1, which explained the phenomenon that the bottomhole fluid temperature increased with the production. The study indicated that the proposed new method for the inversion of formation characteristic and temperature of high-yield wells could quantitatively analyze the formation thermodynamics and seepage parameters, and in that way, determine the fluids producing location of high-yield wells, and provide important basis for production string safety appraisal, field production decision-making, reservoir recognition and reserves calculation. 
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