職 稱:講師
導師 資格:/
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:復雜油氣藏滲流理論、溫壓試井、油氣井完井
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
博士(后),講師,2023年獲中國石油大學(北京)油氣田開發工程博士學位,2021年獲國家留學基金委(CSC)資助,赴加拿大卡爾加里大學學習,2023年7月入職西南石油大學石油與天然氣工程學院。
主要從事復雜油氣藏滲流理論及應用、油氣井智能完井方法與技術、溫度壓力試井分析方法、油氣井分布式光纖監測技術與解釋方法和氫氣地下儲集等方面的教學與科研工作。入選國家資助博士后研究人員計劃1項,作為研究骨干參與國家重大裝備研發計劃、國家自然科學基金面上項目、國家科技重大專項和橫向協作項目十余項,研究成果獲省部級科技進步一等獎1項。在《SPE Journal》《Energy》《PNAS nexus》《International Journal of Hydrogen Energy》等期刊發表論文20余篇,其中以第一作者發表論文17篇,包括SCI論文12篇,EI論文3篇,中文核心2篇,受邀參加SPE年會(SPE ATCE)等國內外著名會議4次,申請國家發明專利3項。擔任《Petroleum Science》《Journal Natural Gas Science and Engineering》《Journal Petroleum Science and Engineering》《Journal of Petroleum Exploration and Production Technology》等多個SCI期刊的審稿專家。
●2014.09-2018.06 西南石油大學,石油工程,學士
●2018.09-2019.06 中國石油大學(北京),油氣田開發工程,碩博連讀
●2019.09-2023.06 中國石油大學(北京),油氣田開發工程,博士
●2021.10-2022.11 University of Calgary,國家公派聯合培養博士
●2023.07-至今 西南石油大學石油與天然氣工程學院,講師/博士后
●國家資助博士后研究人員計劃,GZC20232200,深層裂縫性油藏熱-流耦合變溫機理及參數智能反演,2024/01-2025/12,主持
●國家自然科學基金面上項目,11872073,致密油藏注水誘發微裂縫機理及反演方法,2019-2022,主研
●國家科技重大專項子課題,低滲、特低滲油藏采收率評價及動態裂縫調控技術研究,2017-2020,主研
●橫向協作項目,基于DTS的水平井壓裂過程溫度場模擬及解釋評價方法研究,2023-2024,第二負責人
●橫向協作項目,南海西部復雜油氣井試井分析與軟件研發,2021-2022,第二負責人
●橫向協作項目,壓裂后測試分析模型及求解方法研究,2021-2022,第二負責人
●橫向協作項目,塔河溫壓解釋與示范區注水效果分析測試,2020-2021,第二負責人
●橫向協作項目,第七采油廠不同油藏油水井早期試井解釋技術研究,2019-2020,第二負責人
●橫向協作項目,海相砂巖稠油油藏水平井找水方法探索,2018-2019,第二負責人
(1)學術論文
●Wei C,Li H,Luo H,et al. Generalized analytical solutions of vertically fractured wells in commingled reservoirs:field case study[J]. SPE Journal,2023,SPE-218391-PA.
●Wei C,Liu Y,Deng Y,et al. Temperature transient analysis of naturally fractured geothermal reservoirs[J]. SPE Journal,2022,27(5):2723-2745.
●Wei C,Nawaz A,Hassanzadeh H,et al. Subsurface waste heat recovery from the abandoned steam assisted gravity drainage (SAGD) operations[J]. Energy,2022,256:124615.
●Wei C,Raad S M J,Hassanzadeh H. Estimation of natural methane emissions from the largest oil sand deposits on earth[J]. PNAS nexus,2023,2(9):260.
●Wei C,Raad S M J,Leonenko Y,et al. Correlations for prediction of hydrogen gas viscosity and density for production,transportation,storage,and utilization applications[J]. International Journal of Hydrogen Energy,2023,48(89):34930-34944.
●Wei C,Cheng S,Hassanzadeh H,et al. Analytical well-test model for hydraulicly fractured wells with multiwell interference in double porosity gas reservoirs[J]. Journal of Natural Gas Science and Engineering,2022,103:104624.
●Wei C,Cheng S,Tu K,et al. A hybrid analytic solution for a well with a finite-conductivity vertical fracture[J]. Journal of Petroleum Science and Engineering,2020,188:106900.
●Wei C,Cheng S,Wang X,et al. A quick analysis approach for early-time well test data of vertically fractured wells:Applications in Changqing oilfield,China[J]. Journal of Petroleum Science and Engineering,2021:201,108517.
●Wei C,Cheng S,Yu H,et al. Numerical study on the heat transfer behavior in naturally fractured reservoirs and applications for reservoir characterization and geothermal energy development[J]. Journal of Petroleum Science and Engineering,2021:202,108560.
●Wei C,Cheng S,Wang Y,et al. Practical pressure-transient analysis solutions for a well intercepted by finite conductivity vertical fracture in naturally fractured reservoirs[J]. Journal of Petroleum Science and Engineering,2021:204,108768.
●Wei C,Cheng S,Song J,et al. Pressure transient analysis for wells drilled into vertical beads-on-string caves in fracture-caved carbonate reservoirs:Field cases in Shunbei Oilfield[J]. Journal of Petroleum Science and Engineering,2022,208:109280.
●Wei C,Cheng S,Chen G,et al. Parameters evaluation of fault-karst carbonate reservoirs with vertical beads-on-string structure based on bottom-hole pressure:Case studies in Shunbei Oilfield,Tarim Basin of Northwestern China[J]. Oil & Gas Science and Technology–Revue d’IFP Energies nouvelles,2021,76:59.
●魏操,程時清,白江,等.多井干擾下有限導流裂縫井解析試井分析方法[J].大慶石油地質與開發,2022,41(4):90-97.
●魏操,程時清,李宗澤,等.井洞相連的串珠狀縫洞型油藏試井分析方法[J].油氣地質與采收率,2022,29(6):85-94.
●Wang Y,Cheng S,Wei C,et al. Gas rate decline analysis for boundary-dominated flow with fractal reservoir properties under constant/variable bottom-hole pressure conditions[J]. Journal of Natural Gas Science and Engineering,2021,88:103823.
●Di S,Cheng S,Wei C,et al. Evaluation of fracture closure and its contribution to total production for a well with non-planar asymmetrical vertical fracture based on bottom-hole pressure[J]. Journal of Petroleum Science and Engineering,2021,205:108864.
●Di S,Cheng S,Wei C,et al. Study on the Production Mode of Horizontal Well from Water Huff and Puff to Segmented Injection and Production in Tight Reservoir[J]. Geofluids,2021, 2021:7947911.
●邸士瑩,程時清,白文鵬,魏操,等.致密油藏動態裂縫擴展機理及應用[J].力學學報,2021,53(8):2141-2155. (EI檢索)
●尚根華,魏操,程時清,等.斷控巖溶油藏層間差異及分層產量試井分析方法[J].陜西科技大學學報,2022,40(1):104-109.
●王西強,萬奇鋒,魏婷,冷福,魏操,等.導流能力不均勻的部分壓開垂直裂縫試井分析方法[J].科學技術與工程,2020,20(19):7644-7649.
(2)學術會議
●Wei C,Cheng S,Yu H,et al. Numerical Study on the Temperature Behavior in Naturally Fractured Geothermal Reservoirs and Analysis Methodology for Geothermal Reservoir Characterization and Development[C]. Dubai,UAE:Paper presented at the SPE Annual Technical Conference and Exhibition,September 2021.(SPE年會)
●Wei C,Cheng S,Wang Y,et al. 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[C]. Dubai,UAE:Paper presented at the SPE Annual Technical Conference and Exhibition,September 2021. (SPE年會)
●Wei C,Cheng S,Yu H,et al. Transient analysis of sandface and wellbore temperature in naturally fractured geothermal reservoirs:Numerical and Analytical Approaches[C]. Houston,America:Paper presented at the SPE Annual Technical Conference and Exhibition,October 2022.(SPE年會)
●Chu H,Liao X,Wei C,et al. Rate/Pressure Transient Analysis of a Variable Bottom Hole Pressure Multi-Well Horizontal Pad with Well Interference[C]. Dubai,UAE:Paper presented at the SPE Annual Technical Conference and Exhibition,September 2021. (SPE年會)
●Di S,Cheng S,Wei C,et al. Indexes selection for water-injection huff and puff effect evaluation of fractured horizontal wells in Santanghu Tight oil reservoir,China[C]. Hammamet,Tunisia:Proceeding of ICCESEN-2020,2020.
●魏操,程時清,于海洋,等.多重介質油藏鄰井干擾下壓裂井解析試井分析方法[C]. 遼寧 葫蘆島:第十六屆全國滲流力學學術會議,2021.
(3)發明專利
●程時清,魏操,于海洋,等.串珠狀縫洞體溶洞體積的計算方法和處理器:CN113673101A[P]. 2021-11-19.
●程時清,魏操,于海洋,等.快速診斷縫洞油藏儲層參數的方法和處理器:CN113553746A[P]. 2021-10-26.
●程時清,邸士瑩,郭巧,白文鵬,魏操.低滲透致密油藏水平井多井縫間注水采油方法和系統:CN115324542B[P]. 2023-06-09.
(4)榮譽獎勵
●中國商業聯合會科技進步一等獎,2023
●中國石油大學(北京)優秀博士學位論文,2023
●第十六屆全國滲流力學學術會議優秀學術報告獎,2021
●中國石油工程設計大賽全國一等獎(晉級卓越杯),2018
致力于復雜油氣藏滲流理論、油氣井智能完井方法與技術、溫度壓力試井分析方法、水平井找水控水理論與技術、油氣井分布式光纖監測技術與解釋方法和氫氣地下儲集等涉及的基礎科學問題和關鍵技術開展研究。
●油氣藏動態監測與解釋(試井分析/PTA、產量遞減分析/RTA)
●基于分布式光纖(DTS)監測的溫度數據解釋方法
●斷控巖溶油藏裂縫表征與模擬
●水平井產液(氣)剖面預測技術
●水平井均衡注采理論、軟件與技術服務
●水平井找水與智能控水技術(理論、軟件、智能控水工具)
●氫氣地下儲集、地熱開發模擬
研究團隊由李海濤教授(所長/博導)帶領,經過近30年的潛心研究和專注發展,在油氣井完井、找水控水、分布式光纖監測及解釋、井筒監測及智能控制、油田注水、CCUS等研究領域形成了較為成熟的特色技術,并在國內油氣田取得了良好的推廣應用效果。團隊研究成員包括李海濤(博士)、蔣建勛(博士)、李穎(博士)、蔣貝貝(博士)、羅紅文(博士)、魏操(博士)等中青年骨干教師。團隊研究生20余人,博士生十余人。
