職稱:特任副教授
單位:油氣藏工程研究所
最高學曆/學位:博士
學科:
所學專業:油氣田開發工程
電子郵箱:song_wen_hui_upc@163.com
聯係電話:18669408664
地址郵編:青島市黃島區長江西路66號, 266580
宋文輝
作者:
發布者:於夢飛
發布時間:2023-02-16
訪問次數:5436
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個人主頁
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學習與工作經曆
2010.9-2014.7,中國石油大學(華東),石油工程學士;
2014.01-2014.07,澳大利亞新南威爾士大學,聯合培養本科生;
2014.9-2016.7,中國石油大學(華東),油氣田開發工程碩士;
2015.12-2016.12,英國赫瑞瓦特大學,聯合培養碩士生;
2016.9-2020.7,中國石油大學(華東),油氣田開發工程博士;
2018.12-2019.12,美國德克薩斯大學奧斯汀分校,聯合培養博士生;
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研究方向
(1)數字岩心技術
(2)非常規油氣藏多尺度滲流模擬
(3)孔隙尺度流動模擬方法
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招生方向
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主講課程
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學術兼職
國際多孔滲流協會Interpore會員,長期擔任Chemical Engineering Journal、Fuel、International Journal of Heat and Mass Transfer、Journal of Natural Gas Science and Engineering、Journal of Petroleum Science and Engineering等期刊審稿人。
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指導研究生
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承擔科研課題
1. 頁岩氣多尺度傳質機理研究 中央高校自主創新科研計劃,負責人
2. 國家自然科學基金重大項目“頁岩油氣多尺度滲流特征與開采理論” (項目編號:51490654),2015.1~2019.12, 參與;
3. 國家自然科學基金重點項目“頁岩氣藏開采基礎研究”(項目編號:51234007),2013.1~2017.12,參與;
4. 國家油氣重大專項專題“基於數字岩心的頁岩氣藏微觀流動模擬及產能評價方法研究”,2016.1-2019.12,參與;
5. 國家油氣重大專項專題“考慮微尺度流動機製的頁岩氣藏宏觀數值模擬研究”,2016.1-2019.12,參與。 -
獲獎情況
1. 山東省研究生優秀成果獎一等獎,省級,2019,排名第1;
2. 博士國家獎學金,2018
3. 博士國家獎學金,2017
4. 研究生國家獎學金,2015
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榮譽稱號
2020 年 中國石油大學校長獎
2019 年 中國科學技術發展基金會、孫越崎科技教育基金會聯合獎項 “孫越崎優秀學生獎”
2018 年 中國石油大學(華東)第十三屆研究生“學術十傑”
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著作
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論文
1. Song W, Liu L, Wang D, et al. Nanoscale confined multicomponent hydrocarbon thermodynamic phase behavior and multiphase transport ability in nanoporous material[J]. Chemical Engineering Journal, 2020, 382: 122974. (SCI檢索).
2. Song W, Yao B, Yao J, et al. Methane surface diffusion capacity in carbon-based capillary with application to organic-rich shale gas reservoir[J]. Chemical Engineering Journal, 2018, 352: 644-654. (SCI檢索)
3. Song W, Yao J, Ma J, et al. Numerical simulation of multiphase flow in nanoporous organic matter with application to coal and gas shale systems[J]. Water Resources Research, 2018, 54(2): 1077-1092. (SCI檢索)
4. Song W, Yao J, Li Y, et al. Apparent gas permeability in an organic-rich shale reservoir[J]. Fuel, 2016, 181: 973-984. (SCI檢索)
5. Song W, Yao J, Li Y, et al. Gas-Water Relative Permeabilities Fractal Model in Dual-Wettability Multiscale Shale Porous Media During Injected Water Spontaneous Imbibition and Flow Back Process[J]. Fractals, 2020. (SCI檢索)
6. Song W, Yao J, Wang D, et al. Nanoscale confined gas and water multiphase transport in nanoporous shale with dual surface wettability[J]. Advances in Water Resources, 2019, 130: 300-313. (SCI檢索)
7. Song W, Wang D, Yao J, et al. Multiscale image-based fractal characteristic of shale pore structure with implication to accurate prediction of gas permeability[J]. Fuel, 2019, 241: 522-532. (SCI檢索)
8. Song W, Yao J, Ma J, et al. A pore structure based real gas transport model to determine gas permeability in nanoporous shale[J]. International Journal of Heat and Mass Transfer, 2018, 126: 151-160. (SCI檢索)
9. Song W, Yao J, Ma J, et al. Pore-scale numerical investigation into the impacts of the spatial and pore-size distributions of organic matter on shale gas flow and their implications on multiscale characterisation[J]. Fuel, 2018, 216: 707-721. (SCI檢索)
10. Song W, Yao J, Li Y, et al. Fractal models for gas slippage factor in porous media considering second-order slip and surface adsorption[J]. International Journal of Heat and Mass Transfer, 2018, 118: 948-960. (SCI檢索)
11. Song W, Yao J, Ma J, et al. Grand canonical Monte Carlo simulations of pore structure influence on methane adsorption in micro-porous carbons with applications to coal and shale systems[J]. Fuel, 2018, 215: 196-203. (SCI檢索)
12. Song W, Yao J, Ma J, et al. Assessing relative contributions of transport mechanisms and real gas properties to gas flow in nanoscale organic pores in shales by pore network modelling[J]. International Journal of Heat and Mass Transfer, 2017, 113: 524-537. (SCI檢索)
13. Yao J, Song W, Wang D, et al. Multi-scale pore network modelling of fluid mass transfer in nano-micro porous media[J]. International Journal of Heat and Mass Transfer, 2019, 141: 156-167. (SCI檢索)
14. Song W, Yao J, Li Y, et al. New pore size distribution calculation model based on chord length and digital image[J]. Journal of Natural Gas Science and Engineering, 2017, 48: 111-118. (SCI檢索)
15. Song W, Yao J, Wang D, et al. Dynamic pore network modelling of real gas transport in shale nanopore structure[J]. Journal of Petroleum Science and Engineering, 2020, 184: 106506. (SCI檢索)
16. 宋文輝, 姚軍, 李陽, 等. 孔隙尺度下岩性分類及參數粗化. 科學通報, 2017, 62(16): 1774-1787. (EI檢索)
17. 姚軍, 宋文輝, 李陽, 等. 有機質孔隙對頁岩氣流動能力影響研究. 中國科學: 物理學力學天文學, 2015, 60(60), 2259. (中文核心)
18. Yang Y, Li Y, Yao J, Iglauer S, Luquot L, Zhang K, Sun H, Zhang L, Song W, Wang Z. Dynamic Pore‐Scale Dissolution by CO2‐Saturated Brine in Carbonates: Impact of Homogeneous versus Fractured versus Vuggy Pore Structure[J]. Water Resources Research, 2020, 56(4). (SCI檢索)
19. Wang D, Yao J, Chen Z, Song W, Sun H. Multiphase flow model from pores to cores in organic-rich shale. Journal of Petroleum Science and Engineering, 2020, 107317. (SCI檢索)
20. Yang Q, Yao J, Huang Z, Zhu G, Liu L, Song W. Pore-scale investigation of petro-physical fluid behaviours based on multiphase SPH method. Journal of Petroleum Science and Engineering, 2020, 107238. (SCI檢索)
21. Wang D, Yao J, Chen Z, Song W, Sun H. Image-based core-scale real gas apparent permeability from pore-scale experimental data in shale reservoirs. Fuel, 2019, 254, 115596. (SCI檢索)
22. 王東英, 姚軍, 陳掌星, 孫海, 宋文輝. 頁岩微裂縫內氣-水兩相流動規律. 科學通報, 2019, 64(31), 3232-3243. (EI檢索)
23. Wang D, Yao J, Chen Z, Song W, et al. Upscaled Gas and Water Relative Permeability from Pore and Core Scale Experimental Data Over Hydraulic Fracturing, Flowback and Online Production. Unconventional Resources Technology Conference (URTEC), 2019. (EI檢索)
24. Liu P, Couples G D, Yao J, Huang Z, Song W, Ma J. A general method for simulating reactive dissolution in carbonate rocks with arbitrary geometry. Computational Geosciences, 2018, 22(5): 1187-1201. (SCI檢索)
25. Yan X, Huang Z, Yao J, Song W, Li Y, Gong L. Theoretical analysis of fracture conductivity created by the channel fracturing technique. Journal of Natural Gas Science and Engineering, 2016, 31: 320-330. (SCI二區,影響因子3.841)
26. Yan X, Huang Z, Yao J, Li Y, Fan D, Song W. An efficient hybrid model for fractured reservoirs. Science China Technological Sciences, 2016, 59(10): 1609-1616. (SCI三區,影響因子2.302)
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專利
1. 一種考慮多重因素影響的頁岩氣表觀滲透率計算方法,專利號:CN201910559973.1,排名第2
2. CT Digital Core-Based Microscopic Displacement Experiment System and Microscopic Displacement Experiment Method, PCT專利,專利號:2016102347,排名第12
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學術交流
2020 年 國際多孔介質協會年會 英文口頭報告 網上會議
2018 年 全球應用能源年會 英文口頭報告 中國香港
2018 年 國際數字岩心年會 大會主題報告 中國青島
2017 年 國際多孔介質協會 INTERPORE 年會 英文口頭報告 美國新奧爾良
2017 年 第十四屆全國滲流力學大會 英文口頭報告 中國杭州 -
個人風采