职 称:副研究员
导师资格:硕导
所属部门:采油气工艺研究所
学科专业:油气田开发工程
研究方向:提高采收率理论与技术
联系方式:zs77816@163.com
联系地址:610500四川省成都市新都区新都大道85号红宝石官方网站hbs123全国重点实验室B407
博士(后)、副研究员、硕士生导师,俄罗斯喀山联邦大学客座研究员、联培博士。主要从事注空气和化学驱提高采收率方向的教学和科研工作,主持国家自然科学基金青年基金项目1项、四川省自然科学基金项目1项、中国博士后科学基金面上资助项目1项、国家重点实验室开放基金项目1项和中石油企业合作项目1项,主研国家重点研发计划“政府间国际科技创新合作”重点专项、国家科技重大专项、中央引导地方科技发展专项、俄罗斯青年科学家基金、油田协作项目等9项,获省部级科技进步奖一等奖1项。第一作者/通讯作者发表学术论文60篇,其中SCI论文40篇(ESI高被引论文2篇、中科院大类一区10篇),出版专著2部,授权国际国内专利7件,登记软件著作权2项,国际国内学术报告13次,担任《Frontiers in Energy Research》客座副主编,《油气地质与采收率》《特种油气藏》《断块油气田》《油气藏评价与开发》等首届青年编委,《ACS Nano》《Journal of Cleaner Production》《Energy》等50余种学术期刊审稿专家。
●2010.09-2014.06 红宝石官方网站hbs123,自动化,学士
●2014.09-2017.06 红宝石官方网站hbs123,油气田开发工程,硕士
●2017.09-2020.12 红宝石官方网站hbs123,油气田开发工程,博士
●2019.10-2020.10 俄罗斯喀山联邦大学石油工程系,联培博士
●2021.01-2023.12 红宝石官方网站hbs123石油与天然气工程学院,讲师、师资博士后
●2024.1-至今 红宝石官方网站hbs123石油与天然气工程学院,副研究员
●国家自然科学基金青年基金项目,52204049,页岩油氧化机理、反应动力学及氧化增能改善储层结构研究,2023-2025,主持
●四川省自然科学基金项目,2024NSFSC6736,页岩油藏注空气过程中的干酪根氧化机理与燃烧带传播特性研究,2024-2025,主持
●中国博士后科学基金面上资助项目,2021M692696,页岩油藏注空气燃烧前缘稳定性及燃烧动力学研究,2021-2022,主持
●国家重点实验室开放基金,PLN2022-33,页岩油注空气氧化放热特性及扩孔增渗机理研究,2022-2024,主持
●油田协作项目,2022510102002942,高粘稠油高温火烧前后流体物理化学性质变化规律研究,2022-2023,主持
●中央引导地方科技发展专项,2021ZYD0056,油气原位制氢及关键影响因素,2021-2022,第二负责人
●国家重点研发计划“政府间国际科技创新合作”重点专项,2023YFE0120700,页岩油藏CO2驱油协同碳封存关键理论与方法研究,2023.12-2025.11,第三负责人
●国家重大科技专项,2016ZX05053-09,缝洞型油藏注气方式和技术政策研究,2016-2021,主研
●俄罗斯青年科学家基金,19-73-10189,Investigation on the catalytic oxidation of aliphatic and aromatic hydrocarbons using oil-soluble catalyst and its catalytic mechanism to determine effective catalytic methods for crude oil oxidation in in-situ combustion enhanced oil recovery technologies for hard-to-recover hydrocarbon reserves,2019-2021,第三负责人
●中石油重大开发实验项目,XJYT-gcjsyjy-2017-JS-581,原油氧化行为表征研究,2017-2019,第二负责人
●中石油新疆油田项目,2017-C4058,稠油注空气低温氧化放热规律实验研究,2017-2018,第二负责人
●中石油新疆油田项目,XJYT-2020-FW-51857,页岩油注空气氧化热力驱油实验技术服务,2020-2021,第二负责人
●中石油辽河油田项目,LHYT-KTKFYJY-2020-JS-435,低渗油藏火驱技术界限与驱替特征研究,2020-2021,第二负责人
●中石油新疆油田项目,2021-C4024,吉木萨尔页岩油注空气热效应实验研究,2021-2022,第二负责人
(1)学术论文
●ZHAO S,PU W F,Chen Q,et al. Propagation of combustion front within fractured shale and its influence on shale structure and crude oil properties:An experimental study[J]. SPE Journal,2024,https://doi.org/10.2118/219456-PA
●ZHAO S,PU W F,JIANG Q,et al. Investigation into the key factors influencing the establishment and propagation of combustion front in ultra-deep high-temperature heavy oil reservoirs[J]. Energy,2023,283:129017.
●ZHAO S,PU W F,PENG X,et al. Low-temperature oxidation of heavy crude oil characterized by TG,DSC,GC-MS,and negative ion ESI FT-ICR MS[J]. Energy,2021,214:119004.
●ZHAO S,PU W F,SU L,et al. Properties,combustion behavior,and kinetic triplets of coke produced by low-temperature oxidation and pyrolysis:Implications for heavy oil in-situ combustion [J]. Petroleum Science,2021,18:1483-1491.
●ZHAO S,PU W F,LI Y,et al. Low-temperature oxidation characteristics and reaction pathways of crude oil within tight shale during air injection[J]. Petroleum,2023,https://doi.org/10.1016/j.petlm.2023.12.005
●ZHAO S,PU W F,LI Y,et al. Oxidation behavior and kinetics of shale oil under different oxygen concentrations[J]. Fuel,2024,361:130677.
●ZHAO S,PU W F,GAO H,et al. Isothermal low-temperature oxidation kinetics of heavy crude oil and its oxidized oils[J]. Fuel,2023,344:128146.
●ZHAO S,PU W F,MIKHAIL A,et al. Influence of water on thermo-oxidative behavior and kinetic triplets of shale oil during combustion[J]. Fuel,2022,318:123690.
●ZHAO S,PU W F,PAN J,et al. Thermo-oxidative characteristics and kinetics of light,heavy,and extra-heavy crude oils using accelerating rate calorimetry[J]. Fuel,2022,312:123001.
●ZHAO S,GAO H,PU W F,et al. Isothermal oxidation behavior of heavy crude oil and its low-temperature oxidized oils:implications for in-situ upgrading of heavy oil[J]. Fuel,2022,313:122704.
●ZHAO S,PU W F,SUN B,et al. Comparative evaluation on the thermal behaviors and kinetics of combustion of heavy crude oil and its SARA fractions[J]. Fuel,2019,239:117-125.
●ZHAO S,PU W F,WEI B,et al. A comprehensive investigation of polymer microspheres (PMs) migration in porous media:EOR implication[J]. Fuel,2019,235:249-258.
●ZHAO S,PU W F,MIKHAIL A,et al. Comprehensive investigations into low temperature oxidation of heavy crude oil[J]. Journal of Petroleum Science and Engineering,2018,171:835-842.
●ZHAO S,PU W F,MIKHAIL A,et al. Thermal behavior and kinetics of heavy crude oil during combustion by high pressure differential scanning calorimetry and accelerating rate calorimetry[J]. Journal of Petroleum Science and Engineering,2019,181:106225.
●ZHAO S,PU W F,MIKHAIL A,et al. Oxidation characteristics of heavy oil and its SARA fractions during combustion using TG-FTIR[J]. Journal of Petroleum Science and Engineering,2020,192:107331.
●ZHAO S,PU W F,MIKHAIL A,et al. Low-temperature combustion characteristics of heavy oils by a self-designed porous medium thermo-effect cell[J]. Journal of Petroleum Science and Engineering,2020,195:107863.
●ZHAO S,PU W F,MIKHAIL A,et al. Low-temperature oxidation of light and heavy oils via thermal analysis:Kinetic analysis and temperature zone division[J]. Journal of Petroleum Science and Engineering,2018,168:246-255.
●ZHAO S,PU W F. Migration and plugging of polymer microspheres (PMs) in porous media for enhanced oil recovery:Experimental studies and empirical correlations[J]. Colloids and Surfaces A:Physicochemical and Engineering Aspects,2020,597:124774.
●ZHAO S,PU W F,MIKHAIL A,et al. Evaluation of heat release caused by low-temperature oxidation of heavy oil and its SARA fractions under isothermal conditions[J]. Thermochimica Acta,2020,690:178690.
●ZHAO S,PU W F,YUAN C,et al. SARA-based kinetics model for simulating heat release during crude oil combustion[J]. Journal of Thermal Analysis and Calorimetry,2024,https://doi.org/10.1007/s10973-024-12892-4
●ZHAO S,PU W F,MIKHAIL A,et al. Integrative investigation of low temperature oxidation characteristics and mechanisms of heavy crude oil[J]. Industrial & Engineering Chemistry Research,2019,58:14595-14602.
●ZHAO S,WANG H,ZHAO X,et al. Combined experimental and numerical investigation into combustion characteristics of crude oil under different permeability ranges:Thermal EOR implication[J]. Energy & Fuels,2023,37:1257-1265.
●ZHAO S,XU C,PU W F,et al. Oxidation characteristics and kinetics of shale oil using high-pressure differential scanning calorimetry[J]. Energy & Fuels,2021,35:18726-18732.
●ZHAO S,PU W F,YUAN C,et al. Thermal behavior and kinetic triplets of heavy crude oil and its SARA fractions during combustion by high-pressure differential scanning calorimetry[J]. Energy & Fuels,2019,33:3176-3186.
●ZHAO S,PU W F. Investigation into the effect of polymer microspheres (PMs) on oil-water relative permeability and oil-in-water emulsion stability for enhanced oil recovery[J]. Journal of Dispersion Science and Technology,2021,42:1695-1702.
●ZHAO S,PU W F,HUO J,et al. Effect of interactions between saturates-aromatics-resins-asphaltenes components on the oxidation behavior and kinetics of heavy crude oil[J]. Petroleum Chemistry,2020,60:1226-1231.
●ZHAO S,WANG R,JIANG F,et al. Preparation and structural analysis of a comb-like polymer through functional monomer design[J]. Polymer Engineering and Science,2021,61:2882-2893.
●ZHAO S,PU W F,HOU J,et al. Low-temperature oxidation and thermal kinetics analysis of light and medium crude oils[J]. Petroleum Science & Technology,2018,36:540-546.
●ZHAO S,PU W F,HUO J,et al. ВЗАИМНОЕ ВЛИЯНИЕ SARA-КОМПОНЕНТОВ НА ОКИСЛЕНИЕ ТЯЖЕЛОЙ НЕФТИ[J]. НЕФТЕХИМИЯ,2020,60:765-772.
●ZHAO S,PU W,XU C,et al. Feasibility of in-situ combustion in shale oil reservoirs with complex fractures:Thermal EOR implication[C]. ThEOR International Workshop VI,November 20-22,2023.
●ZHAO S,PU W F,MIKHAIL A,et al. Thermo-oxidative behavior,kinetic triplets,and spontaneous ignition potential of shale oil during air injection[C]. ThEOR International Workshop Ⅴ,November 3-5,2022.
●ZHAO S,PU W F,MIKHAIL A,et al. Influence of permeability on in-situ combustion characteristics of heavy crude oil:Experimental studies and numerical predictions[C]. ThEOR International Workshop Ⅳ,December 1-3,2021.
●ZHAO S,PU W F,HUO J,et al. Exothermic behavior and kinetic triplet for in-situ combustion (ISC) of heavy crude oil and its SARA fractions[C]. ThEOR International Workshop Ⅲ,October 15-19,2018.
●赵帅,蒲万芬,Mikhail A,等. 催化剂和环境温度对稠油燃烧的影响[J].红宝石官方网站hbs123学报(自然科学版),2023,45(4):164-173.
●赵帅,蒲万芬,冯天,等.超稠油低温氧化和裂解成焦实验[J].特种油气藏,2022,29:69-75.
●赵帅,蒲万芬,蒋琪,等.不同储层渗透率下稠油油藏火驱开发特征[J].大庆石油地质与开发,2023,DOI:10. 19597/J. ISSN. 1000-3754.
●赵帅,蒲万芬,李科星,等.聚合物微球非均质调控能力研究[J].油气藏评价与开发,2019,9:51-56.
●赵帅,丁振峰,蒙延冲,等.动态空气流下红浅稠油在多孔介质中的燃烧特性[J].当代化工,2022,51:1294-1297.
●赵帅,蒲万芬,袁成东,等.分散胶粒径与岩心孔喉尺寸匹配关系研究[C].大连:中国石油第七届化学驱提高采收率年会,2017.
●赵帅,蒲万芬,徐春云.注空气过程中页岩油氧化放热特征、动力学及自燃潜力分析[C].乌鲁木齐:第一届页岩油渗流机理技术研讨会,2022.
(2)授权专利
●赵帅,蒲万芬.一种基于四族组分的原油氧化反应动力学模型建立方法:202110208844.5[P]. 2022-02-11.
●赵帅,蒲万芬,袁成东,等.一种催化氧化燃烧致裂储层提高页岩油藏采收率的方法:202110498984.0[P]. 2022-08-22.
●赵帅,蒲万芬,徐春云.一种基于红外成像的原油燃烧实验装置:202121008722.3[P]. 2021-12-07.
●赵帅,蒲万芬,潘竟军,等.一种可装配岩心的高温高压燃烧实验装置:202120770986.6[P]. 2021-11-05.
(3)软件著作权
●赵帅,蒲万芬.基于燃烧管实验结果计算火驱基础参数的软件V1.0:2020SR1250174[CP/CD]. 2020-01-10.
●赵帅,蒲万芬.运用热分析实验数据获得原油氧化动力学三因子的软件V1.0:2020SR1250175[CP/CD]. 2020-06-15.
(4)专著
●The challenge and opportunity of CCUS in the development of unconventional resource[M]. Frontiers in Energy research,2023.
●Lessons Learned from Our Recent Research in Chemical Enhanced Oil Recovery (C-EOR) Methods[M]. Recent Insights in Petroleum Science and Engineering,2018.
(5)获奖成果
●中国石油和化工自动化行业科技进步一等奖,难动用油藏注空气提高采收率及调控防窜关键技术及规模化应用,2021
●指导学生获第九届四川省国际“互联网+”大学生创新创业大赛银奖,2023
(6)学术会议报告
●ThEOR International Workshop VI “Thermal Methods for Enhanced Oil Recovery:Laboratory Testing,Simulation and Oilfields Applications”,Keynote Speaker,2023-11
●ThEOR International Workshop Ⅴ “Thermal Methods for Enhanced Oil Recovery:Laboratory Testing,Simulation and Oilfields Applications”,Keynote Speaker,2022-11
●第一届页岩油实验技术研讨会,专题报告,2022-10
●新疆稠油火驱过程中成焦物理化学机理研究研讨会,专题报告,2022-07
●中国石油集团济柴动力有限公司来校交流研讨会,专题报告,2022-06
●提高采收率工程联合实验室2021年度学术研讨会,专题报告,2021-12
●ThEOR International Workshop Ⅳ “Thermal Methods for Enhanced Oil Recovery:Laboratory Testing,Simulation and Oilfields Applications”,Keynote Speaker,2021-12
●俄罗斯科学家论坛,大会报告,2021-11
●ThEOR International Workshop Ⅲ “Thermal Methods for Enhanced Oil Recovery:Laboratory Testing,Simulation and Oilfields Applications”,Keynote Speaker,2018-10
●空气驱/空气火驱开发新进展研讨会,专题报告,2018-09
●原油与空气氧化机理研讨会,专题报告,2018-03
●第二届油气藏提高采收率技术研讨会,宣读论文,2018-01
●第七届化学驱提高采收率技术年会,宣读论文,2017-07
(7)学术兼职
●俄罗斯喀山联邦大学客座研究员
●《Frontiers in Energy Research》客座副主编
●《油气地质与采收率》首届青年编委
●《特种油气藏》首届青年编委
●《断块油气田》首届青年编委
●《油气藏评价与开发》首届青年编委
●《东北石油大学学报》首届青年编委
●《ACS Nano》《Journal of Cleaner Production》《Energy》《Fuel》《Petroleum Science》等50余种国际国内学术期刊审稿专家
●轻质油藏高压空气驱室内研究、数值模拟、方案设计研究
●重质油藏火驱室内研究、数值模拟、方案设计研究
●页岩油藏注气提高采收率研究
●化学驱(凝胶颗粒调驱、表面活性剂驱)的油藏适应性及驱油机理
依托油气藏地质及开发工程全国重点实验室提高采收率基础理论及配套技术研究团队和国家能源局稠重油研发中心西南分中心。团队带头人国家级人才、石油与天然气工程学院副院长蒋琪教授,四川省学术和技术带头人、二级教授蒲万芬教授、博导,俄罗斯自然科学院贡献勋章获得者,喀山联邦大学领衔研究员,复杂油气藏三次采油中心主任;课题组有专职老师12人,其中教授6人,副教授3人,博士后讲师3人。目前指导在读博士研究生20余人、硕士研究生80余人。研究人员专业涵盖石油工程(采油、油藏、开发地质)、化学工程(油田化学、化工工艺)等领域。课题组主持国家自然科学基金重点、国家自然科学基金面上、青年项目,国家“973”、国家科技重大专项、企业协作等项目百余项,获省部级科技进步一等奖3项,二等奖4项,发表论文300余篇,授权发明专利百余项。