皇家永利

职        称:教授
导师 资格:博导
所属 部门:开发所
学科 专业:油气田开发工程
研究 方向:提高采收率,油田化学 
联系 方式:13880551801,pwf58@163.com
联系 地址:610500 皇家永利成都市新都区新都大道8号西南石油大学

教授,博士生导师,享受国务院政府特殊津贴专家、皇家永利学术和技术带头人、皇家永利先进工作者,俄罗斯自然科学院外籍院士、俄罗斯自然科学院特殊贡献勋章获得者、喀山联邦大学领衔研究员,第五届新疆砾岩油藏自治区重点实验室学术委员会副主任,新疆油田公司与西南石油大学提高采收率工程联合实验室学术委员会副主任,石油工业油田化学剂专业标准化技术委员会专家委员,中石化提高采收率重点实验室学术委员会委员,新疆页岩油勘探开发自治区重点实验室学术委员会委员,国际《Journal of Petroleum Science and Engineering》杂志Thermal EOR刊编委。

主要从事提高原油采收率教学和研究工作,长期致力于复杂油藏开发难题,围绕高温高盐高含水“三高”油藏、复杂裂缝/缝洞型油藏、非常规(致密、超低渗、页岩、稠油)油藏大幅度提高采收率的关键科学技术问题攻坚克难,在调剖堵水、原位智能流度控制驱油、页岩油空气热化学驱油、稠油原位改质与转化等领域取得系列理论、产品、关键技术创新和原始创新,丰富了石油开采理论,显著提高了石油采收率。近5年,主持国家自然科学基金重点项目、国家重大科技专题、973专题、省级科技及企业重要协作项目34项,发表学术论文134篇(被引2600余次、H指数26),授权国际国内发明专利30件,软件著作权5件,成果获省部级科技进步一等奖2项(排名1、2)、二等奖4项(3项排名1,1项排名2)。


个人经历

●1979-1983       西南石油学院,油田化学,学士

●1983-1987       中原油田采油技术研究院,主要从事污水处理与调剖堵水,技术员

●1987-1997       西南石油大学石油工程学院,从事提高采收率的教学与科研工作(至今),讲师

●1998.10-1999.02 加拿大石油公司,进修访问

●1998-2006       西南石油大学石油工程学院,副教授

●2006-至今       西南石油大学石油与天然气工程学院,教授(博导)


主研项目

●国家自然科学基金重点项目,黏度可控的原位增黏体系构建及高效驱油机理研究,负责

●国家重大基础研究973专题,致密油注CO2高效排驱机理与方法,负责

●国家示范工程,碳酸盐岩缝洞型油藏调剖堵水体系与工艺完善,负责

●国家示范工程,缝洞型碳酸盐岩油藏调剖堵水体系与工艺完善,负责

●国际合作项目,阿尔及利亚扎尔则油田混相驱先导试验方案评价,负责

●国际合作项目,Water Shutoff and Acidizing Study,负责

●中石油重点攻关项目,孔南地区高温高盐油藏空气泡沫驱体系及数值模拟研究,负责

●中石化重点攻关项目,高温高盐油藏空气泡沫驱起泡体系研究,负责

●中石油重点攻关项目,大港油田孔南地区提高采收率重大示范工程,负责

●中石油重点攻关项目,港2025断块天然气驱提高采收率研究,负责

●砾岩油藏聚合物驱过程调剖界限研究,负责

●抗高钙镁功能聚合物的制备及驱油性能研究,负责

●塔河油田于奇西奥陶系超稠油开发方式(氮气、空气、二氧化碳)及机理实验研究,负责

●西达里亚三叠系油藏h1-1油组化学驱可行性研究与应用,负责

●西达里亚三叠系油藏化学驱油机理及改善水驱技术研究,负责

●缝洞型稠油油藏注气三次采油注入介质(不同气体)优选研究,负责

●弱碱三元复合体系油藏对七东1区块储层损害、油藏适应性研究,负责

●华北油田三次采油技术适应性评价与区块筛选评价研究,负责

●注空气/空气泡沫驱原油氧化相态特征研究,负责

●超低渗透率油藏热水驱技术研究,负责


代表性成果

(1)省部级科技进步奖

●中国石油和化学工业联合会科技进步二等奖,复杂油藏水平井堵水关键技术与应用,第二完成人,2020

●中国石油和化学工业联合会科技进步一等奖,超深缝洞型油藏注氮气关键技术与工业化应用,第一完成人,2019

●中国石油和化工自动化协会科技进步二等奖,缝洞型油藏水窜通道识别及高效堵水技术与应用,第一完成人,2018

●中国石油和化工联合会科技进步二等奖,高含水复杂油藏调剖堵水关键技术研究及规模应用,第一完成人,2017

●新疆自治区科技进步一等奖,复杂缝洞型油藏调剖堵水关键技术研究及规模应用,第二完成人,2017

●中国石油和化工自动化应用协会科技进步二等奖,复杂缝/洞油藏调剖堵水改善开发效果关键技术研究及规模应用,第一完成人,2016

●中国石油和化工自动化应用协会科技进步一等奖,复杂断块油田提高采收率深部调驱关键工艺技术创新与推广,第一完成人,2015

●皇家永利科技进步二等奖,复杂油气藏压裂酸化基础理论与应用技术,第三完成人,2006

●总公司科技进步二等奖,孔隙介质中聚合物滞留分子的粘弹效应,第二完成人,1993

(2)代表性学术论文

近五年来,共发表SCI 134篇(被引2600次)、CSCD 23篇,其中第一作者(或学生第一、本人第二)代表性SCI论文89篇。

●Pu W F,Chen Y,Li Y,et al. Comparison of different kinetic models for heavy oil oxidation characteristic evaluation[J]. Energy & Fuels,2017,31(11):12665-12676.

●Pu W F,Liu R,Peng Q,et al. Amphiphilically modified chitosan copolymer for enhanced oil recovery in harsh reservoir condition[J]. Journal of Industrial and Engineering Chemistry,2016,37:216-223.

●Pu W F,Wei P,Sun L,et al. Experimental investigation of viscoelastic polymers for stabilizing foam[J]. Journal of Industrial and Engineering Chemistry,2017,47:360-367.

●Pu W F,Jiang F,Chen P,et al. A POSS based hydrogel with mechanical robustness,cohesiveness and a rapid self-healing ability by electrostatic interaction[J]. Soft matter,2017,13(34):5645-5648.

●Pu W F,Wei B,Jin F,et al. Experimental investigation of CO2 huff-n-puff process for enhancing oil recovery in tight reservoirs[J]. Chemical Engineering Research and Design,2016,111:269-276.

●Pu W F,Yang Y,Wei B,et al. Potential of a β-cyclodextrin/adamantane modified copolymer in enhancing oil recovery through host–guest interactions[J]. Industrial & Engineering Chemistry Research,2016,55(31):8679-8689.

●Pu W F,Yuan C D,Jin F Y,et al. Low-temperature oxidation and characterization of heavy oil via thermal analysis[J]. Energy & Fuels,2015,29(2):1151-1159.

●Pu W F,Liu P G,Li Y B,et al. Thermal characteristics and combustion kinetics analysis of heavy crude oil catalyzed by metallic additives[J]. Industrial & Engineering Chemistry Research,2015,54(46):11525-11533.

●Pu W F,Liu R,Wang K Y,et al. Water-soluble core–shell hyperbranched polymers for enhanced oil recovery[J]. Industrial & Engineering Chemistry Research,2015,54(3):798-807.

●Pu W F,Shen C,Wei B,et al. A comprehensive review of polysaccharide biopolymers for enhanced oil recovery (EOR) from flask to field[J]. Journal of Industrial and Engineering Chemistry,2017.

●Pu W F,Yuan C,Hu W,et al. Effects of interfacial tension and emulsification on displacement efficiency in dilute surfactant flooding[J]. RSC Advances,2016,6(56):50640-50649.

●Pu W F,Du D,Liu R,et al. Synthesis and characterization of hyperbranched associative polyacrylamide[J]. RSC Advances,2016,6(45):39522-39529.

●Pu W F,Du D,Liu R,et al. Synthesis and evaluation of β-cyclodextrin-functionalized hydrophobically associating polyacrylamide[J]. RSC Advances,2016,6(98):96006-96014.

●Pu W F,Liu R,Li B,et al. Amphoteric hyperbranched polymers with multistimuli-responsive behavior in the application of polymer flooding[J]. RSC Advances,2015,5(107):88002-88013.

●Pu W F,Jiang F,Wei B,et al. Influences of structure and multi-intermolecular forces on rheological and oil displacement properties of polymer solutions in the presence of Ca2+/Mg2+[J]. RSC Advances,2017,7(8):4430-4436.

●Pu W F,Wei P,Sun L,et al. Stability,CO2 sensitivity,oil tolerance and displacement efficiency of polymer enhanced foam[J]. RSC Advances,2017,7(11):6251-6258.

●Pu W F,Jiang F,He Y,et al. Synthesis of a novel comb micro-block hydrophobically associating copolymer for Ca2+/Mg2+ resistance[J]. RSC Advances,2016,6(49):43634-43637.

●Pu W F,Zhao S,Wang S,et al. Investigation into the migration of polymer microspheres (PMs) in porous media:implications for profile control and oil displacement[J]. Colloids and Surfaces A:Physicochemical and Engineering Aspects,2018.

●Pu W F,Jiang F,Wei B,et al. A gel-like comb micro-block hydrophobic associating polymer: Synthesis,solution property and the sol-gel transition at semi-dilute region[J]. Macromolecular Research,2017,25(2):151-157.

●Pu W F,Liu Z,Li Y,et al. A novel insight of laboratory investigation and simulation for high pressure air injection in light oil reservoir[J]. Journal of Natural Gas Science and Engineering,2017,38:333-344.

●Pu W F,Gu J Y,Zhao T H,et al. Stability and adsorption of multiphase foam system with high temperature resistance[J]. Journal of Dispersion Science and Technology,2018,39(3):402-410.

●Pu W F,Gu J,Zhao T,et al. Laboratory study on the oil displacement properties of sugar amine sulfonate surfactant[J]. Journal of Surfactants and Detergents,2017,20(5):1037-1049.

●Pu W F,Pang S,Wang C. Experimental investigation of foam performance in the presence of crude oil[J]. Journal of Surfactants and Detergents,2017,20(5):1051-1059.

●Pu W F,Yuan C D,Wang X,et al. The wettability alteration and the effect of initial rock wettability on oil recovery in surfactant-based enhanced oil recovery processes[J]. Journal of Dispersion Science and Technology,2016,37(4):602-611.

●Pu W F,Pang S,Jia H. Using DSC/TG/DTA techniques to re-evaluate the effect of clays on crude oil oxidation kinetics[J]. Journal of Petroleum Science and Engineering,2015,134:123-130.

●Pu W F,Zhao S,Lu X B,et al. The effect of oil properties on oil recovery in dilute surfactant flooding[J]. Petroleum Science and Technology,2016,34(8):759-764.

● Pu W F,Liu P G,Li Y B,et al. Sensitivity study on thermal behavior and kinetics of crude oil using thermal analysis techniques[J]. Petroleum Science and Technology,2016,34(1):24-30.

●Pu W F,Yang Y,Yuan C D. Gelation performance of poly (ethylene imine) crosslinking polymer-layered silicate nanocomposite gel system for potential water-shutoff use in high-temperature reservoirs[J]. Journal of Applied Polymer Science,2016,133(47).

●Pu W F,Wen C,Liu R,et al. Evaluation of a novel profile control agent for enhancing an oil-recovery application[J]. Journal of Applied Polymer Science,2016,133(32).

●Pu W F,Chen Y F,Jin F Y,et al. The kinetic analysis of coke formation under differential air-oil ratio during high pressure air injection[J]. Petroleum Science and Technology,2015,33(5):503-509.

●Pu W F,Liu P G,Jia H,et al. Comparative study of light and heavy oils oxidation using thermal analysis methods[J]. Petroleum Science and Technology,2015,33(13-14):1357-1365.

●Liu R,Pu W F,Du D J. Synthesis and characterization of core-shell associative polymer that prepared by oilfield formation water for chemical flooding[J]. Journal of Industrial and Engineering Chemistry,2017,46:80-90.

●Liu R,Pu W F,Sheng J J,et al. Star-like hydrophobically associative polyacrylamide for enhanced oil recovery: Comprehensive properties in harsh reservoir conditions[J]. Journal of the Taiwan Institute of Chemical Engineers,2017,80:639-649.

●Guo Y,Pu W F,Zhao J,et al. Effect of the foam of sodium dodecyl sulfate on the methane hydrate formation induction time[J]. International Journal of Hydrogen Energy,2017,42(32):20473-20479.

●Liu R,Pu W F,Sheng J J,et al. CO2-switchable nanohybrids for enhancing CO2 flooding in tight reservoirs: From stable colloids to a relevant viscoelastic fluid[J]. Materials & Design,2017,133:487-497.

●Wei P,Pu W F,Sun L,et al. Alkyl Polyglucosides stabilized foam for gas controlling in high-temperature and high-salinity environments[J]. Journal of Industrial and Engineering Chemistry,2017.

●Guo Y,Pu W F,Zhao J,et al. Salt-out in porosity medium:mitigating gas channeling using alcohol-induced salt precipitation[J]. Journal of Alloys and Compounds,2016,685:97-106.

●Yuan C D,Pu W F,Wang X C,et al. Effects of interfacial tension,emulsification,and surfactant concentration on oil recovery in surfactant flooding process for high temperature and high salinity reservoirs[J]. Energy & Fuels,2015,29(10):6165-6176.

●Yuan C D,Pu W F,Jin F Y,et al. Characterizing the fuel deposition process of crude oil oxidation in air injection[J]. Energy & Fuels,2015,29(11):7622-7629.

●Liu R,Pu W F,Wang L,et al. Solution properties and phase behavior of a combination flooding system consisting of hydrophobically amphoteric polyacrylamide,alkyl polyglycoside and n-alcohol at high salinities[J]. RSC Advances,2015,5(86):69980-69989.

●Sun L,Pu W F,Xin J,et al. High temperature and oil tolerance of surfactant foam/polymer–surfactant foam[J]. RSC Advances,2015,5(30):23410-23418.

●Liu R,Pu W F,Du D,et al. Manipulation of star-like polymer flooding systems based on their comprehensive solution properties and flow behavior in porous media[J]. Journal of Petroleum Science and Engineering,2018,164:467-484.

●Wei P,Pu W F,Sun L,et al. Oil recovery enhancement in low permeable and severe heterogeneous oil reservoirs via gas and foam flooding[J]. Journal of Petroleum Science and Engineering,2018.

●Wei P,Pu W F,Sun L,et al. Research on nitrogen foam for enhancing oil recovery in harsh reservoirs[J]. Journal of Petroleum Science and Engineering,2017,157:27-38.

●Rong Y,Pu W F,Zhao J,et al. Experimental research of the tracer characteristic curves for fracture-cave structures in a carbonate oil and gas reservoir[J]. Journal of Natural Gas Science and Engineering,2016,31:417-427.

●Li Y B,Pu W F,Zhao J Y,et al. Variation of reservoir fluid property during the high pressure air injection process[J]. International Journal of Green Energy,2016,13(2):173-180.

●Li Y B,Pu W F,Sun L,et al. Effect of formation factors on light crude oil oxidation via TG-FTIR[J]. Journal of Thermal Analysis and Calorimetry,2014,118(3):1685-1695.

(3)代表性发明专利

●杜代军,蒲万芬,等.一种高温高盐非均质性油藏双重调驱体系及其应用:201910380765.5[P].

●蒲万芬,金发扬,等.一种颗粒类调剖堵水剂韧性评价方法:201710669845.3[P].

●蒲万芬,杜代军,等.一种膨胀时间可控的聚合物微球及其制备方法:201811259598.0[P].

●刘锐,蒲万芬,等.黏度可控的原位乳化增黏体系及其在水驱油藏的应用:201910384440.4[P].

●蒲万芬,刘锐,等.含高相变点原位乳化增黏体系及在水驱油藏的应用:201910470177.0[P].

●蒲万芬,杜代军,等.一种高温高盐油藏原位乳化体系及其应用:201910398099.8[P].

●蒲万芬,杜代军,等.一种羟基化多维纳米材料杂化分散胶及其应用:201911105894.X[P].

●杜代军,蒲万芬,等.一种含磺化杯芳烃疏水缔合聚合物及其制备方法:201710443791.9[P].

●杜代军,蒲万芬,等.一种超分子自组装压裂液:201710425174.6[P].

●蒲万芬,杜代军,等.一种POSS基杂化的预交联凝胶颗粒及其制备方法:201810791687.3[P].

●蒲万芬,刘锐,等.适用于油田产出水的核-壳形聚合物及其制备方法:201610566991.9[P].

●蒲万芬,杨洋,等.一种多糖聚合物堵水凝胶:201610296608.2[P].

●刘锐,蒲万芬,等.一种高温高盐油藏防CO2气窜堵剂及其制备方法:201610567724.3[P].

●杜代军,蒲万芬,等.一种基于多重分子间作用力的超分子聚合物及其制备方法:201710275133.3[P].

●蒲万芬,杨洋,等.一种基于主客体作用的聚合物驱油剂及其制备方法:201610297379.6[P].

●蒲万芬,李一波,等.一种高压注空气氧化热效应检测跟踪实验装置及方法:201610006446.4[P].

●彭欢,蒲万芬,等.硫杂蒽酮改性树枝形聚酰胺-胺水溶性光引发剂及合成法:2015100030552[P].

●蒲万芬,袁成东,等.一种高温高压绝热氧化实验系统及方法:201610006614.X[P].

●李一波,蒲万芬,等.一种超稠原油氧化燃料沉积的实验装置及方法:201610006663.3[P].

●蒲万芬,袁成东,等.高温高压热跟踪补偿绝热静态氧化及动态氧化驱替装置:201510432008.X[P].

●李科星,金发扬,蒲万芬,等.一种岩缝洞型油藏注示踪剂注采模型的制备及应用方法:201410384348.5[P].

●孙琳,蒲万芬,等.一种盐增效性抗温抗盐泡沫体系:201410187033.1[P].

●蒲万芬,刘锐,等.一种微尺度动态分散胶:201510240730.3[P].

●刘锐,蒲万芬,等.聚酰胺-胺杂化纳米二氧化硅超支化聚合物及其制备方法:201410121174.3[P].

(4)教材和专著

●提高采收率原理(本科教材),编写第一、三章

●低渗透裂缝性油藏双重交联复合凝胶堵水技术(专著),第一

●油田稳油控水技术论文集,第二

●油气藏开发与开采技术(教育部研究生教材),编写第十一章

●聚合物应用评价方法(专著),第二

(5)软件著作权

●调剖充分程度判别软件 2013SR099278

●缝洞油藏井间示踪曲线拟合软件V1.0 2015SR200566

●大孔道识别平台 V1.0 2015SR200508

●井间动态连通性计算软件 V1.0 2015SR200574


研究领域

●化学驱(原位乳化智能驱油、聚合物驱、表面活性剂驱、聚/表二元驱、泡沫驱)

●空气驱、常规气驱

●调剖堵水

●致密油注气排驱

●稠油热采

●数值模拟

●油田化学剂的设计与研发


研究团队

本课题组隶属西南石油大学国家重点实验室,本研究团队现有教师10人,其中教授、博导3人,副教授5人,博士(后)/讲师1人。目前,在校研究生90余人,其中博士14人、硕士70余人,研究人员专业涵盖石油工程(采油、油藏、气藏、开发地质)、化学工程(油田化学、化工工艺)等领域。本团队主要从事提高采收率理论及工艺方案优化研究,在化学驱(聚合物驱、表面活性剂驱、聚/表二元驱、泡沫驱)、空气驱、常规气驱及调剖堵水领域具有扎实的理论基础和相当的实践经验。