中国石油大学

程时清

发布日期:2024-04-28 浏览次数:

教育经历 1997-07至2000-10, 中科院渗流所, 油气田开发, 博士研究生 1984-09至1987-07, 石油勘探开发研究院, 油气田开发, 硕士研究生 1980-09至1984-07, 大庆石油学院, 油田开发, 大学本科 个人概况 姓名:程时清 职称:研究员,博导 教育经历:  19800901-19840701 大庆石油学院油气田开发专业,本科  19840901-19870701 北京石油勘探开发研究院研究生部油气田开发专业,硕士  19971001-20001001 中科院渗流流体力学所流体力学专业,博士    工作简历  1987-1997 江汉石油学院教师  1997美国塔尔萨大学访问学者  2000-2003 石油大学(北京)博士后  2003-现在 中国石油大学(北京)教师  2006 美国塔尔萨大学访问学者    电子邮箱: chengsq973@163.com  联系电话: 010 89734978  所在系所: 油气田开发工程系  教学情况: 研究生课程《高等气藏工程》,《石油工程综合设计》,《石油工程大数据》    代表性性学术成果  研究方向: 油气藏动态监测,油气藏工程,非常规油气田开发,石油工程人工智能    代表性成果:  1.非常规油气及聚驱试井分析技术。发明了压裂井早期试井、压裂井缝间非均匀导流能力试井、多级压裂水平井不规则产液试井分析方法,提出了直井—水平井联合井网来水方向试井识别方法,建立了基于生产数据的压裂井和水平井不均匀导流能力的储层参数反演方法,建立了多层聚合物驱试井解释理论与方法,发明了基于井口压力动动液面的注水剖面反转的监测技术,研制了非常规油气试井解释商业化软件(MPA试井软件)  2、非常规油气水平井异步注采技术。提出了天然裂缝、压裂裂缝、注水诱导裂缝组成的复杂动态缝网表征及识别方法,发明了水平井同井注采和异步注采方法。  3、石油工程大数据及在油田开发应用。提出了相似油气藏类比指标体系及类比方法,联合研制了智能油气藏类比软件、油气藏动态智能分析软件,发展了基于数据驱动的油气藏动态表征及开发指标预测技术、基于机器学习的油藏全生命周期的井网设计及调整技术,这些技术已应用于水驱油藏中高含水期综合治理、致密气藏开发动态分析与调整。   科研项目: 主持国家自然基金、国家油气重大专项及各类油田横向项目60项,2021年负责在研项目如下: [1]国家自然科学基金项目(11872073),致密油藏注水诱发微裂缝机理及反演方法,2018-2022,经费75.6万 [2] 中海油研究总院项目:裂缝性低渗透凝析气藏试井及产能评价技术,2021-2022,经费95.2万 [3] 中石油新疆油田公司:新疆油田典型井试井解释技术研究,2021-2022,经费115.2万 [4] 中石油塔里木油田公司:超深裂缝性低孔砂岩气藏断-缝-孔多重介质流动特征研究,2021-2022,经费190.0万 [5] 中海油湛江分公司项目:南海西部复杂油气井试井模型求解及方法实现,2020-2022,经费123.95万 [6] 中石油勘探开发研究院项目:复杂碳酸盐岩油藏动态监测反演方法及应用,2021,经费46.0万 [7] 中石油勘探开发研究院项目:压裂测试分析模型、求解算法研究,2021-2022,经费80.0万 [8] 中石油勘探开发研究院项目:亚马尔砂岩气藏评价及水平井开发技术政策优化,2020-2021,经费43.6万 科研奖励:  [1] 致密气藏非均匀导流能力压裂井产量和压力分析技术及应用,中国石油和化工自动化应用协会技术发明一等奖,2020  [2] 特/超低渗透油藏裂缝动态表征与开发调整应用,中国石油和化学工业联合会科技进步二等奖,2019  [3] 海上油田聚合物驱开发过程关键参数监测技术及应用,中国石油和化工自动化应用协会科技进步二等奖,2016  [4] 超低渗透油藏非线性渗流与开发技术,中国石油和化学工业联合会科技进步一等奖,2010  [5] 凝析气藏多相渗流机理及有效开发方式,中国石油和化学工业联合会科技进步一等奖,2014  [6] 复杂类型油气藏动态反演与监测技术及其工业化应用,陕西省科技进步二等奖,2012    著作4部: [1] 复杂结构井试井理论与方法,科学出版社,2018,主编 [2] 试油测试工艺,石油工业出版社,2014,主编 [3] 试油与试采,中国石油大学出版社,2012,主编 [4] 油气田开发地质学,石油工业出版社,1999,主编   近年来发表学术论文150余篇,其中SCI、EI,ISTP收录60篇。发明专利10项 [1] Big Data Technique in the Reservoir Parameters’ Prediction and Productivity Evaluation: A Field Case in Western South China Sea. Gondwana Research, 2021, 96(2021): 22-36.  [2] Evaluation of fracture closure and its contribution to total production for a well with non-planar asymmetrical vertical fracture based on bottom-hole pressure, Journal of Petroleum Science and Engineering, 2021, 205 (2021) 108864.  [3] Time-normalized conductivity concept for analytical characterization of dynamic-conductivity hydraulic fractures through pressure-transient analysis in tight gas reservoirs. Journal of Natural Gas Science and Engineering, 2021, 92 (2021) 103997.  [4] Semi-analytical model for characterization of anomalous linear-flow behavior in partially-propped fractured wells. Journal of Petroleum Science and Engineering, 2021, 200 (2021) 108380.  [5] In-situ characterization of nonlinear flow behavior of fluid in ultra-low permeability oil reservoirs. Journal of Petroleum Science and Engineering, 2021, 203 (2021) 108573.  [6] Gas Rate Decline Analysis for Boundary-Dominated Flow with Fractal Reservoir Properties under Constant / Variable Bottom-Hole Pressure Conditions. Journal of Natural Gas Science and Engineering, 2021, 88 (2021) 103823.  [7] 超低渗透油藏注水诱导动态裂缝开发理论及实践. 中国科学·技术科学,2021.  [8] 致密油藏动态裂缝扩展机理及应用[J]. 力学学报,2021, 53(08): 2141-2155.  [9] Numerical study on the heat transfer behavior in naturally fractured reservoirs and applications for reservoir characterization and geothermal energy development. Journal of Petroleum Science and Engineering, 2021, 202(2021) 108560.  [10] Pressure transient analysis for wells drilled into vertical beads-on-string caves in fracture-caved carbonate reservoirs: Field cases in Shunbei Oilfield. Journal of Petroleum Science and Engineering, 2021: 109280.  [11] Numerical Study on the Temperature Behavior in Naturally Fractured Geothermal Reservoirs and Analysis Methodology for Geothermal Reservoir Characterization and Development. SPE Annual Technical Conference and Exhibition, 2021.  [12] Pressure Transient Analysis of Wells in the Fault-Karst Carbonate Reservoirs with Vertical Beads-on-String Structure: Case Studies in Shunbei Oilfield, Tarim Basin of Northwestern China. SPE Annual Technical Conference and Exhibition, 2021.  [13] Integrated Approach for Well Interference Diagnosis Considering Complex Fracture Networks Combining Pressure and Rate Transient Analysis. SPE Annual Technical Conference and Exhibition, 2020.  [14] Analytical Model for Rate Transient Analysis in Low-Permeability Volatile Oil Reservoirs. SPE Annual Technical Conference and Exhibition, 2019.  [15] 水平井同井注采技术[J]. 大庆石油地质与开发,2019, 194(04): 51-60.  [16] Analytical Model for Rate Transient Analysis in Low-Permeability Volatile Oil Reservoirs. SPE Annual Technical Conference and Exhibition, 2019.  [17] Application of Inter-Fracture Injection and Production in a Cluster Well to Enhance Oil Recovery. SPE Annual Technical Conference and Exhibition, 2019.  [18] 一种用于多级压裂水平井判别来水方向的多井干扰压力分析方法[J]. 中国石油大学学报(自然科学版),2018, 229(05):81-88.  [19]A Comprehensive Work Flow To Characterize Waterflood-Induced Fractures by Integrating Real-Time Monitoring, Formation Test, and Dynamic Production Analysis Applied to Changqing Oil Field, China. SPE Reservoir Evaluation & Engineering, 2018.  [20] An Innovative Model to Evaluate Fracture Closure of Multi-Fractured Horizontal Well in Tight Gas Reservoir Based on Bottom-Hole Pressure. Journal of Natural Gas Science & Engineering, 2018.  [21] A Novel Multi-Well Interference Testing Model of a Fractured Horizontal Well and Vertical Wells. SPE Annual Technical Conference and Exhibition, 2018.  [22] Case Studies: Pressure-Transient Analysis for Water Injector with the Influence of Waterflood-Induced Fractures in Tight Reservoir. SPE Improved Oil Recovery Conference, 2018. [23] The Physical Process and Pressure-Transient Analysis Considering Fractures Excessive Extension in Water Injection Wells. Journal of Petroleum Science and Engineering, 2017, 439–454 [24] A Semianalytical Methodology to Diagnose the Locations of Underperforming Hydraulic Fractures through Pressure-Transient Analysis in Tight Gas Reservoir. SPE Journal, 2017, 924-939. [25] Waterflood Direction and Front Characterization with Four-Step Work Flow: A Case Study in Changqing Oil field, China. SPE Reservoir Evaluation & Engineering, 2017, 708-72. [26] A Semianalytical Approach to Estimate Fracture Closure and Formation Damage of vertically fractured Wells in tight gas Reservoir. Journal of Petroleum Science and Engineering, 2017, 85–90. [27] Pressure Transient Behavior for Alternating Polymer Flooding in a Three-zone Composite Reservoir, Polymers & Polymer Composites, Vol. 25, No. 1, 2017, 1-10. [28] A Novel Well Testing Method for Characterization of Non-Darcy Flow Behavior by Well Testing Method in Low Permeability Reservoirs. Presented at SPE Annual Technical Conference and Exhibition, 2017. [29] Successful Application of Well Testing and Electrical Resistance Tomography to Determine Production Contribution of Individual Fracture and Water-breakthrough Locations of Multifractured Horizontal Well in Changqing Oil Field, China. SPE Annual Technical Conference and Exhibition, 2017. [30] Estimation of Non-Uniform Production Rate Distribution of Multi-Fractured Horizontal Well through Pressure Transient Analysis: Model and Case Study. SPE Annual Technical Conference and Exhibition, 2017. [31] 致密油藏多级压裂水平井同井缝间注采可行性, 石油学报,2017,38(12):1411-1419 [32] 多段压裂水平井不均匀产油试井模型,中国石油大学学报,2017,41(4):116-122 [33] Variable-Permeability Well-Testing Models and Pressure Response in Low-Permeability Reservoirs with non-Darcy Flow. Earth Sciences Research Journal,2016,20(1): 2496-2503 [34] Pressure-Transient Analysis of a Well with a Double-Segment Vertical Fracture. Journal of Computational and Theoretical Nanoscience,2016,13(4): 2496-2503 [35] 多段生产水平井试井解释方法,中国海上油气,2014,26(6):44-49 [19] The Use of Equivalent Horizontal Well Length to Evaluate Formation Damage for Horizontal Wells,Petroleum Exploration and Development,2013,40(3):352-355 [36] 聚合物驱复合油藏试井模型与典型曲线,华中科技大学学报(自然科学版),2012,29(4):110-113 [37] 多层系油田剩余油分布研究新方法,大庆石油地质与开发,2012,31(1): 51-55 [38] 根据油井含水率确定分层剩余油饱和度的图版法,大庆石油地质与开发,2011 [39] 三重介质分支水平井试井分析,水动力学研究与进展,2009,24(2):127-132 [40] 高速非达西气井渗流模型及压力曲线特征,石油钻探技术,2009,31(4):28-31 [41] 低渗透油藏通用非达西渗流模型及压力曲线特征,大庆石油地质与开发,2009,28,(4): 60-63. [42] 应用渗流反问题理论进行非均质油气藏多参数分布计算,石油学报,2006,27(3):87-90 [43] 油水两相低速非达西渗流数值模拟,石油勘探与开发,1998,25(1):41-43 [44] 低速非达西渗流试井典型曲线拟合法,石油勘探与开发,1996,23(4)50-53

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