職 稱:副研究員
導師資格:碩導
所屬部門:采油氣工藝研究所
學科專業:油氣田開發工程
研究方向:提高采收率理論與技術
聯系方式:[email protected]
聯系地址:610500四川省成都市新都區新都大道85號西南石油大學全國重點實驗室B407
博士(后)、副研究員、碩士生導師,俄羅斯喀山聯邦大學客座研究員、聯培博士。主要從事注空氣和化學驅提高采收率方向的教學和科研工作,主持國家自然科學基金青年基金項目1項、四川省自然科學基金項目1項、中國博士后科學基金面上資助項目1項、國家重點實驗室開放基金項目1項和中石油企業合作項目1項,主研國家重點研發計劃“政府間國際科技創新合作”重點專項、國家科技重大專項、中央引導地方科技發展專項、俄羅斯青年科學家基金、油田協作項目等9項,獲省部級科技進步獎一等獎1項。第一作者/通訊作者發表學術論文60篇,其中SCI論文40篇(ESI高被引論文2篇、中科院大類一區10篇),出版專著2部,授權國際國內專利7件,登記軟件著作權2項,國際國內學術報告13次,擔任《Frontiers in Energy Research》客座副主編,《油氣地質與采收率》《特種油氣藏》《斷塊油氣田》《油氣藏評價與開發》等首屆青年編委,《ACS Nano》《Journal of Cleaner Production》《Energy》等50余種學術期刊審稿專家。
●2010.09-2014.06 西南石油大學,自動化,學士
●2014.09-2017.06 西南石油大學,油氣田開發工程,碩士
●2017.09-2020.12 西南石油大學,油氣田開發工程,博士
●2019.10-2020.10 俄羅斯喀山聯邦大學石油工程系,聯培博士
●2021.01-2023.12 西南石油大學石油與天然氣工程學院,講師、師資博士后
●2024.1-至今 西南石油大學石油與天然氣工程學院,副研究員
●國家自然科學基金青年基金項目,52204049,頁巖油氧化機理、反應動力學及氧化增能改善儲層結構研究,2023-2025,主持
●四川省自然科學基金項目,2024NSFSC6736,頁巖油藏注空氣過程中的干酪根氧化機理與燃燒帶傳播特性研究,2024-2025,主持
●中國博士后科學基金面上資助項目,2021M692696,頁巖油藏注空氣燃燒前緣穩定性及燃燒動力學研究,2021-2022,主持
●國家重點實驗室開放基金,PLN2022-33,頁巖油注空氣氧化放熱特性及擴孔增滲機理研究,2022-2024,主持
●油田協作項目,2022510102002942,高粘稠油高溫火燒前后流體物理化學性質變化規律研究,2022-2023,主持
●中央引導地方科技發展專項,2021ZYD0056,油氣原位制氫及關鍵影響因素,2021-2022,第二負責人
●國家重點研發計劃“政府間國際科技創新合作”重點專項,2023YFE0120700,頁巖油藏CO2驅油協同碳封存關鍵理論與方法研究,2023.12-2025.11,第三負責人
●國家重大科技專項,2016ZX05053-09,縫洞型油藏注氣方式和技術政策研究,2016-2021,主研
●俄羅斯青年科學家基金,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,第三負責人
●中石油重大開發實驗項目,XJYT-gcjsyjy-2017-JS-581,原油氧化行為表征研究,2017-2019,第二負責人
●中石油新疆油田項目,2017-C4058,稠油注空氣低溫氧化放熱規律實驗研究,2017-2018,第二負責人
●中石油新疆油田項目,XJYT-2020-FW-51857,頁巖油注空氣氧化熱力驅油實驗技術服務,2020-2021,第二負責人
●中石油遼河油田項目,LHYT-KTKFYJY-2020-JS-435,低滲油藏火驅技術界限與驅替特征研究,2020-2021,第二負責人
●中石油新疆油田項目,2021-C4024,吉木薩爾頁巖油注空氣熱效應實驗研究,2021-2022,第二負責人
(1)學術論文
●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.
●趙帥,蒲萬芬,Mikhail A,等. 催化劑和環境溫度對稠油燃燒的影響[J].西南石油大學學報(自然科學版),2023,45(4):164-173.
●趙帥,蒲萬芬,馮天,等.超稠油低溫氧化和裂解成焦實驗[J].特種油氣藏,2022,29:69-75.
●趙帥,蒲萬芬,蔣琪,等.不同儲層滲透率下稠油油藏火驅開發特征[J].大慶石油地質與開發,2023,DOI:10. 19597/J. ISSN. 1000-3754.
●趙帥,蒲萬芬,李科星,等.聚合物微球非均質調控能力研究[J].油氣藏評價與開發,2019,9:51-56.
●趙帥,丁振峰,蒙延沖,等.動態空氣流下紅淺稠油在多孔介質中的燃燒特性[J].當代化工,2022,51:1294-1297.
●趙帥,蒲萬芬,袁成東,等.分散膠粒徑與巖心孔喉尺寸匹配關系研究[C].大連:中國石油第七屆化學驅提高采收率年會,2017.
●趙帥,蒲萬芬,徐春云.注空氣過程中頁巖油氧化放熱特征、動力學及自燃潛力分析[C].烏魯木齊:第一屆頁巖油滲流機理技術研討會,2022.
(2)授權專利
●趙帥,蒲萬芬.一種基于四族組分的原油氧化反應動力學模型建立方法:202110208844.5[P]. 2022-02-11.
●趙帥,蒲萬芬,袁成東,等.一種催化氧化燃燒致裂儲層提高頁巖油藏采收率的方法:202110498984.0[P]. 2022-08-22.
●趙帥,蒲萬芬,徐春云.一種基于紅外成像的原油燃燒實驗裝置:202121008722.3[P]. 2021-12-07.
●趙帥,蒲萬芬,潘竟軍,等.一種可裝配巖心的高溫高壓燃燒實驗裝置:202120770986.6[P]. 2021-11-05.
(3)軟件著作權
●趙帥,蒲萬芬.基于燃燒管實驗結果計算火驅基礎參數的軟件V1.0:2020SR1250174[CP/CD]. 2020-01-10.
●趙帥,蒲萬芬.運用熱分析實驗數據獲得原油氧化動力學三因子的軟件V1.0:2020SR1250175[CP/CD]. 2020-06-15.
(4)專著
●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)獲獎成果
●中國石油和化工自動化行業科技進步一等獎,難動用油藏注空氣提高采收率及調控防竄關鍵技術及規模化應用,2021
●指導學生獲第九屆四川省國際“互聯網+”大學生創新創業大賽銀獎,2023
(6)學術會議報告
●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
●第一屆頁巖油實驗技術研討會,專題報告,2022-10
●新疆稠油火驅過程中成焦物理化學機理研究研討會,專題報告,2022-07
●中國石油集團濟柴動力有限公司來校交流研討會,專題報告,2022-06
●提高采收率工程聯合實驗室2021年度學術研討會,專題報告,2021-12
●ThEOR International Workshop Ⅳ “Thermal Methods for Enhanced Oil Recovery:Laboratory Testing,Simulation and Oilfields Applications”,Keynote Speaker,2021-12
●俄羅斯科學家論壇,大會報告,2021-11
●ThEOR International Workshop Ⅲ “Thermal Methods for Enhanced Oil Recovery:Laboratory Testing,Simulation and Oilfields Applications”,Keynote Speaker,2018-10
●空氣驅/空氣火驅開發新進展研討會,專題報告,2018-09
●原油與空氣氧化機理研討會,專題報告,2018-03
●第二屆油氣藏提高采收率技術研討會,宣讀論文,2018-01
●第七屆化學驅提高采收率技術年會,宣讀論文,2017-07
(7)學術兼職
●俄羅斯喀山聯邦大學客座研究員
●《Frontiers in Energy Research》客座副主編
●《油氣地質與采收率》首屆青年編委
●《特種油氣藏》首屆青年編委
●《斷塊油氣田》首屆青年編委
●《油氣藏評價與開發》首屆青年編委
●《東北石油大學學報》首屆青年編委
●《ACS Nano》《Journal of Cleaner Production》《Energy》《Fuel》《Petroleum Science》等50余種國際國內學術期刊審稿專家
●輕質油藏高壓空氣驅室內研究、數值模擬、方案設計研究
●重質油藏火驅室內研究、數值模擬、方案設計研究
●頁巖油藏注氣提高采收率研究
●化學驅(凝膠顆粒調驅、表面活性劑驅)的油藏適應性及驅油機理
依托油氣藏地質及開發工程全國重點實驗室提高采收率基礎理論及配套技術研究團隊和國家能源局稠重油研發中心西南分中心。團隊帶頭人國家級人才、石油與天然氣工程學院副院長蔣琪教授,四川省學術和技術帶頭人、二級教授蒲萬芬教授、博導,俄羅斯自然科學院貢獻勛章獲得者,喀山聯邦大學領銜研究員,復雜油氣藏三次采油中心主任;課題組有專職老師12人,其中教授6人,副教授3人,博士后講師3人。目前指導在讀博士研究生20余人、碩士研究生80余人。研究人員專業涵蓋石油工程(采油、油藏、開發地質)、化學工程(油田化學、化工工藝)等領域。課題組主持國家自然科學基金重點、國家自然科學基金面上、青年項目,國家“973”、國家科技重大專項、企業協作等項目百余項,獲省部級科技進步一等獎3項,二等獎4項,發表論文300余篇,授權發明專利百余項。
