姓名:王瀚
職稱:講師
電話:15705426960
郵箱:hanwang@cup.edu.cn
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教育背景/工作經(jīng)歷
2025.07 - 至今 中國石油大學(北京) 碳中和示范性能源學院 講師
2023.03 - 2025.06 中國石油大學(北京) 地質(zhì)資源與地質(zhì)工程 優(yōu)秀學科博士后
2021.09 - 2022.09 加拿大阿爾伯塔大學 CSC聯(lián)合培養(yǎng)博士
2018.09 - 2022.12 中國石油大學(華東) 油氣田開發(fā)工程 博士
2017.09 - 2018.06 中國石油大學(華東) 油氣田開發(fā)工程 碩士
2013.09 - 2017.06 中國石油大學(華東) 石油工程 學士
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研究方向
格子Boltzmann方法孔隙尺度模擬
非常規(guī)油/氣滲流
CO2地質(zhì)封存/H2儲
微尺度多相多組分流動/擴散
微尺度巖石化學反應
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科研項目經(jīng)歷
國家自然科學基金青年項目, 考慮相態(tài)變化的頁巖油-氣-水多相多組分微觀流動模擬, 2025.01-2027.12. (主持)
中國博士后面上項目, 頁巖油-氣-水-礦物巖石界面作用和多相微觀流動機理, 2023.03-2025.03. (主持)
國家資助博士后B計劃, 頁巖油藏CO2吞吐提高采收率和油-CO2-水多相流動微觀機理, 2023.03-2025.03. (主持)
中國石油大學(北京)優(yōu)秀學科博士后, 頁巖油-氣-水微觀流動模擬及可流動性評價, 2023.03-2025.03. (主持)
國家自然科學基金面上項目, 頁巖油多尺度運移機制及數(shù)值模擬, 2017.01-2020.12. (參與)
國家自然科學基金面上項目, 頁巖油CO2吞吐多尺度流動模擬研究, 2020.01-2023.12. (參與)
國家自然科學基金青年項目, 頁巖油微觀運移機理與可流動性評價, 2019.01-2021.12. (參與)
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科研期刊論文 (*通訊作者)
[1] Han Wang, Jianchao Cai*, et al. Oil-CO2 phase behavior in nanoporous media: A lattice Boltzmann study. International Communications in Heat and Mass Transfer. 2025, 163, 108738.
[2] Han Wang, Jianchao Cai*, et al. Prediction and mechanism of underground hydrogen storage in nanoporous media: Coupling molecular simulation, pore-scale simulation and machine learning. International Journal of Hydrogen Energy. 2025, 101, 303-312.
[3] Han Wang, Jianchao Cai*, et al. Lattice Boltzmann prediction of CO2 and CH4 competitive adsorption in shale porous media accelerated by machine learning for CO2 sequestration and enhanced CH4 recovery. Applied Energy. 2024, 370, 123638.
[4] Han Wang, Mingshan Zhang*, et al. Study on CO2 and CH4 competitive adsorption in shale organic and clay porous media from molecular- to pore-scale simulation. SPE Journal, 2024, 29(06), 3265-3276.
[5] Han Wang, Jianchao Cai*, et al. Pore-scale study on shale oil-CO2-water miscibility, competitive adsorption, and multiphase flow behaviors. Langmuir, 2023, 39(34), 12226-12234.
[6] Han Wang, Wendong Wang*, Zhehui Jin*, et al. Lattice Boltzmann model for oil-water two-phase flow in nanoporous media considering heterogeneous viscosity, liquid-solid and liquid-liquid Slip. SPE Journal. 2022, 27(06), 3508-3524.
[7] Han Wang, Yuliang Su*, et al. Improved lattice Boltzmann method to simulate liquid flow in nanoporous media: coupling molecular dynamics simulations and theoretical model. Advances in Water Resources, 2022, 165, 104239.
[8] Han Wang, Yuliang Su*, Zhehui Jin*, et al. CO2-oil diffusion, adsorption and miscible flow in nanoporous media from pore-scale perspectives. Chemical Engineering Journal, 2022, 450(1), 137957.
[9] 王瀚., 蘇玉亮*, et al. 基于格子Boltzmann方法的頁巖納米多孔介質(zhì)流體流動模擬研究. 石油學報, 2022, 44(03), 534-544.
[10] Han Wang, Yuliang Su*, et al. A new fractal apparent permeability model for liquid flow in tortuous nanopores from lattice Boltzmann simulations to theoretical model. Fractals, 2021, 29(07), 2150233.
[11] Han Wang, Yuliang Su*, et al. Investigate effects of microstructures on nanoconfined water flow behaviors from viscous dissipation perspectives. Transport in Porous Media, 2021, 140(3), 815-836.
[12] Han Wang, Yuliang Su*, et al. Investigations on water imbibing into oil-saturated nanoporous media: coupling molecular interactions, the dynamic contact angle, and the entrance effect. Industrial & Engineering Chemistry Research, 2021, 1872-1883.
[13] Han Wang, Yuliang Su*, et al. Enhanced water flow and apparent viscosity model considering wettability and shape effects. Fuel, 2019, 253, 1351-1360.
[14] Han Wang, Yuliang Su*, et al. Hydrodynamic resistance model of oil flow in nanopores coupling oil–wall molecular interactions and the pore-throat structures effect. Chemical Engineering Science, 2019, 209, 115166.
[15] Han Wang, Yuliang Su*, et al. Apparent permeability model for shale oil transport through elliptic nanopores considering wall-oil interaction. Journal of Petroleum Science and Engineering, 2019, 176, 1041-1052.
[16] Han Wang, Yuliang Su*, et al. Relative permeability model of oil-water ?ow in nanoporous media considering multi-mechanisms. Journal of Petroleum Science and Engineering, 2019, 183, 106361.
[17] Han Wang, Jianchao Cai*, et al. Imbibition behaviors in shale nanoporous media from pore-scale perspectives. Capillarity. 2023, 9(2), 32-44.
[18] 王瀚*, 趙偉, 等. 頁巖非均質(zhì)多孔介質(zhì)中油-水兩相流動格子Boltzmann模擬研究. 石油科學通報. 2025, 1-15.
[19] Dian Zhang, Lei Li*, Han Wang*, et al. Study on the mechanism of CO2 huff-n-puff enhanced oil recovery and storage in shale porous media considering heterogeneous structure. Physics of Fluids. 2024, 36, 172005.
[20] Wendong Wang, Qiuheng Xie**, Han Wang*, et al. Pore-scale simulation of multiphase flow and reactive transport processes involved in geologic carbon sequestration. Earth-Science Reviews, 2023, 247, 104602.
[21] Wendong Wang, Han Wang*, et al. Pseudopotential-based multiple-relaxation-time lattice Boltzmann model for multicomponent and multiphase slip flow. Advances in Geo-Energy Research. 2023, 9(2), 106-16.
[22] Wendong Wang, Han Wang*, et al. Simulation of liquid flow transport in nanoscale porous media using lattice Boltzmann method. Journal of the Taiwan Institute of Chemical Engineers, 2021, 121, 128-138.
[23] Haiming Fan*, Hui Li, Han Wang*, et al. Enhanced oil flow model coupling fractal roughness and heterogeneous wettability. Fractals, 2019, 27(06), 1950088.
[24] Yuliang Su*, Han Wang*, et al. A model for gas transport in organic matter with isolated pores in shale gas reservoirs. Journal of Natural Gas Science and Engineering, 2018, 57, 178-188.
[25] 蘇玉亮, 王瀚, et al. 頁巖油微尺度流動表征及模擬研究進展. 深圳大學學報 (理工版), 2021, 579-589.
[26] Xuanzhe Xia, Han Wang*, et al. Gas adsorption behavior in shale reservoirs: Insights from molecular scale. Capillarity. 2024, 13(3), 68-72.
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科研專利
[1] 蔡建超, 王瀚, 張明山, 夏宇軒. 頁巖競爭吸附量預測模型構(gòu)建方法、設備及存儲介質(zhì). 2024, (202410131337X)
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獲獎與榮譽
山東省優(yōu)秀博士論文(2024)
綠色礦山科學技術(shù)一等獎(2023), 7/11
博士研究生國家獎學金(2019/2022)
山東省研究生優(yōu)秀成果一等獎(2022), 1/3
中國石油大學(華東)優(yōu)秀博士論文(2022)
中國石油大學(華東)“學術(shù)十杰”(2022)
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學術(shù)交流
[1] 第三屆計算能源科學研討會, 2024, 青島. 非常規(guī)油氣-CO2-水多相流動格子Boltzmann模擬. (口頭報告)
[2] 首屆地球能源前沿論壇, 2024, 武漢. 頁巖油-CO2擴散-競爭吸附-油相膨脹格子Boltzmann模擬. (口頭報告)
[3] InterPore, 2024, Qingdao. Pore-scale prediction of CH4-CO2 competitive adsorption in nanoporous media coupling molecular simulation and machine learning acceleration. (口頭報告)
[4] 第十七屆全國滲流力學學術(shù)會議, 2023, 北京. 頁巖油/氣-CO2-水擴散、競爭吸附和混相流動格子Boltzmann模擬. (口頭報告)
[5] 55th US Rock Mechanics/Geomechanics Symposium, 2021, 1917, online. Microscale compressibility and nanoscale effects on shale reservoir fracturing fluid imbibition. (口頭報告)
[6] InterPore, 2020, online. Imbibition model for oil-water two phase in nanoscale pores. (口頭報告)
[7] 第十五屆全國滲流力學學術(shù)會議, 2019, 大慶. 頁巖油微觀運移機理及流動模擬. (口頭報告)
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學術(shù)兼職
[1] 《Capillarity》ESCI收錄學術(shù)期刊 青年編委.
