姓名:宋文輝
職稱:副教授(校優秀青年學者)
教育和工作經歷:
2010.09 - 2014.07 中國石油大學(華東)��,石油工程�,本科
2013.01 - 2013.07 澳大利亞新南威爾士大學����,國家留學基金委優秀本科生
2014.09 - 2020.06 中國石油大學(華東)���,油氣田開發工程�,碩博連讀�,博士
2015.12 - 2016.12 英國赫瑞瓦特大學���,聯合培養
2018.12 - 2019.12 美國德克薩斯大學奧斯汀分校����,聯合培養
2020.09 - 2023.01 中國石油大學(華東)����,博士后
2023.09 - 至今 中國石油大學(北京)����,師資博士后�����,副教授
所在系所:油氣井工程系
電子郵箱:song_wen_hui_upc@163.com
個人主頁:https://scholar.google.com/citations?user=LoTLFg0AAAAJ&hl=en
研究方向:非常規油氣藏開發�����、巖石力學���、油氣滲流理論與應用���、數字巖心技術
代表性論文著作:
[1] Song, W., Lu, Y., Gao, Y., Yao, B., Jin, Y., Chen, M. (2024). A fractal-based oil transport model with uncertainty reduction for a multi-scale shale pore system. Fractals, accepted.
[2] 夏海幫,韓克寧,宋文輝*�,等.頁巖氣藏多尺度孔縫介質壓裂液微觀賦存機理研究[J].油氣藏評價與開發,2023,13(05):627-635+685.
[3] Song, W., Yao, B., Sun, H., Yang, Y., Zhong, J., & Yao, J. (2023). Nanoscale Three-Phase Transport in a Shale Pore Network with Phase Change and Solid–Fluid Interaction. Energy & Fuels. 37 (18), 13851-13865.(主編邀稿)
[4] Song, W., Prodanovi?, M., Yao, J., & Zhang, K. (2023). Nano-scale wetting film impact on multiphase transport properties in porous media. Transport in Porous Media, 149(1), 5-33.
[5] Song, W., Prodanovic, M., Santos, J. E., Yao, J., Zhang, K., & Yang, Y. (2023). Upscaling of Transport Properties in Complex Hydraulic Fracture Systems. SPE Journal, 28(03), 1026-1044.
[6] Song, W., Yao, J., Zhang, K., Yang, Y., Sun, H., & Wang, Z. (2022). Nano-scale multicomponent hydrocarbon thermodynamic transport mechanisms in shale oil reservoir. Journal of Petroleum Science and Engineering, 111093.
[7] Song, W., Yao, J., Zhang, K., Yang, Y., & Sun, H. (2022). Understanding gas transport mechanisms in shale gas reservoir: Pore network modelling approach. Advances in Geo-Energy Research, 6(4), 359-360.
[8] Song, W., Yao, J., Zhang, K., Yang, Y., & Sun, H. (2022). Accurate Prediction of Permeability in Porous Media: Extension of Pore Fractal Dimension to Throat Fractal Dimension. Fractals, 2250038. (期刊封面文章)
[9] Song, W., PRODANOVIC, M., Yao, J., Zhang, K., & Wang, Q. (2022). Analytical Electrical Conductivity Models for Single-Phase and Multi-Phase Fractal Porous Media. Fractals, 30(03), 2250060.
[10] Song, W., Yao, J., Zhang, K., Sun, H., & Yang, Y. (2022). The Impacts of Pore Structure and Relative Humidity on Gas Transport in Shale: A Numerical Study by the Image-Based Multi-scale Pore Network Model. Transport in Porous Media, 144(1), 229-253.
[11] Zhu, Q, Song, W.*, Yang, Y., Lu, X., Liu, L., Zhang, Y., Sun, H., Yao, J. (2021). An advection-diffusion-mechanical deformation integral model to predict coal matrix methane permeability combining digital rock physics with laboratory measurements. Applied Geochemistry. 126:104861.
[12] Song, W., Yao, J., Zhang K. (2021). Study on gas adsorption and transport behavior in shale organic nanopore. Chinese Journal of Theoretical and Applied Mechanics, 53, 2179-2192.
[13] 宋文輝, 劉磊, 孫海, 張凱, 楊永飛, 姚軍. (2021). 基于數字巖心的頁巖油儲層孔隙結構表征與流動能力研究. 油氣藏評價與開發, 11(4), 497-505(期刊年度優秀論文)
[14] Song, W., Yin, Y., Landry, C., Prodanovi?, M., Qu, Z., Yao, J. (2020). A local-effective-viscosity multi-relaxation-time lattice Boltzmann-pore network coupling model to predict gas transport property in complex nanoporous media. SPE Journal, 26(01), 461-481.
[15] Song, W., Yao, J., Li, Y., Sun, H., Wang, D., Yan, X. (2020). Gas–water relative permeabilities fractal model in dual-wettability multiscale shale porous media during injected water spontaneous imbibition and flow back process. Fractals, 28(07), 2050103.
[16] Song, W., Yao, J., Wang, D., Li, Y., Sun, H., & Yang, Y. (2020). Dynamic pore network modelling of real gas transport in shale nanopore structure. Journal of Petroleum Science and Engineering, 184, 106506.
[17] Song, W., Liu, L., Wang, D., Li, Y., Prodanovi?, M., & Yao, J. (2019). Nanoscale confined multicomponent hydrocarbon thermodynamic phase behavior and multiphase transport ability in nanoporous material. Chemical Engineering Journal, 122974.
[18] Song, W., Yao, J., Wang, D., Li, Y., Sun, H., Yang, Y., & Zhang, L. (2019). Nanoscale confined gas and water multiphase transport in nanoporous shale with dual surface wettability. Advances in Water Resources.
[19] Song, W., Wang, D., Yao, J., Li, Y., Sun, H., Yang, Y., & Zhang, L. (2019). Multiscale image-based fractal characteristic of shale pore structure with implication to accurate prediction of gas permeability. Fuel, 241, 522-532.
[20] Yao, J., Song, W.*, Wang, D., Sun, H., & Li, Y. (2019). Multi-scale pore network modelling of fluid mass transfer in nano-micro porous media. International Journal of Heat and Mass Transfer, 141, 156-167.
[21] Song, W., Yao, B., Yao, J., Li, Y., Sun, H., Yang, Y., & Zhang, L. (2018). Methane surface diffusion capacity in carbon-based capillary with application to organic-rich shale gas reservoir. Chemical Engineering Journal, 352, 644-654.
[22] Song, W., Yao, J., Ma, J., Sun, H., Li, Y., Yang, Y., & Zhang, L. (2018). Numerical simulation of multiphase flow in nanoporous organic matter with application to coal and gas shale systems. Water Resources Research, 54(2), 1077-1092.
[23] Song, W., Yao, J., Ma, J., Li, Y., & Han, W. (2018). A pore structure based real gas transport model to determine gas permeability in nanoporous shale. International Journal of Heat and Mass Transfer, 126, 151-160.
[24] Song, W., Yao, J., Ma, J., Couples, G. D., Li, Y., & Sun, H. (2018). 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. Fuel, 216, 707-721.
[25] 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.
[26] Song, W., Yao, J., Ma, J., Li, A., Li, Y., Sun, H., & Zhang, L. (2018). Grand canonical Monte Carlo simulations of pore structure influence on methane adsorption in micro-porous carbons with applications to coal and shale systems. Fuel, 215, 196-203.
[27] Song, W., Liu, H., Wang, W., Zhao, J., Sun, H., Wang, D., ... & Yao, J. (2018). Gas flow regimes judgement in nanoporous media by digital core analysis. Open Physics, 16(1), 448-462.
[28] Song, W., Yao, J., Ma, J., Couples, G., & Li, Y. (2017). Assessing relative contributions of transport mechanisms and real gas properties to gas flow in nanoscale organic pores in shales by pore network modelling. International Journal of Heat and Mass Transfer, 113, 524-537.
[29] Song, W., Yao, J., Li, Y., Yang, Y., & Sun, H. (2017). New pore size distribution calculation model based on chord length and digital image. Journal of Natural Gas Science and Engineering, 48, 111-118.
[30] 姚軍, 宋文輝, 李陽, 等. 有機質孔隙對頁巖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.
[31] Song, W., Yao, J., Li, Y., Sun, H., ... & Sui, H. (2016). Apparent gas permeability in an organic-rich shale reservoir. Fuel, 181, 973-984. (ESI 高被引)
[32] 宋文輝, 姚軍, 李陽, 等. 孔隙尺度下巖性分類及參數粗化. 科學通報, 2017, 62(16):1774-1787.
[33] Wang, D., Song, W., Yao, J., Yang, Q., Yan, X., & Sun, H. (2021). A fractal multiphase transport model in shale porous media with multiple transport mechanisms and rock–fluid interaction. Fractals, 29(02), 2150037.
代表性專利與軟著:
[1] 宋文輝����,姚軍�����,張凱��。一種基于雙重介質孔隙網絡模型的頁巖滲透率解釋方法���。2021106954210(已授權)
[2] 宋文輝����,姚軍�����,張凱�����。一種區域結構差異化的巖石多尺度孔隙網絡模型構建方法��。2021106290370(已授權)
[3] 姚軍�����,宋文輝�,王曉宇����。一種基于CT掃描圖像的巖石孔滲測量方法����。2020111371744(已授權)
[4] 賈存奇���,姚軍�,宋文輝���,黃朝琴��。一種碳酸鹽巖酸化數值模擬方法��。2020107700113(已授權)
[5] 宋文輝���。頁巖儲層數字巖心孔隙結構和流動能力分析軟件V1.0����。2021SR1366275�����。
科學研究項目:
[1] 中國石油大學(北京)優秀青年學者培育計劃�����,主持
[2] 國家自然科學基金青年基金����,考慮應力場-化學場耦合的頁巖油藏注二氧化碳微觀滲流模擬研究�����,2022-2025�,主持
[3] 中國科協青年人才托舉工程����,油氣滲流����,2021-2024��,主持
[4] 中國博士后國資計劃B檔資助��,2013-2025��,主持
[5] 中國石油天然氣股份有限公司塔里木油田分公司�����,萬米深層巖石力學基礎理論及其應用�����,2023-2026����,研究骨干
[6] 山東省自然科學基金��,基于數字巖心的深層頁巖氣藏受限流體微觀滲流機理研究���,2022-2024���,主持
[7] 頁巖氣評價與開采四川省重點實驗室開放基金:考慮受限相態的深層頁巖氣藏滲流機理及產能模擬方法���,主持
[8] 山東省博士后創新項目一等資助����,熱流固耦合作用下深層頁巖氣藏滲流機理及模擬方法研究��,2021-2022���,主持
[9] 青島市博士后應用項目�����,熱流固耦合作用下深層頁巖多相多組分微觀滲流機理及模擬方法研究����,2021-2022���,主持
[10] 國家自然科學基金委員會����,重點項目�����,深層超深層油氣藏開發基礎理論研究���,2021-2025�,研究骨干
[11] 中石化華東局�����,南川地區頁巖氣藏儲層精細描述和開發評價研究��,2021-2022�,研究骨干
[12] 科技部�,國家油氣重大專項專題����,2016ZX05061-014����,基于數字巖心的頁巖氣藏微觀流動模擬及產能評價方法研究���,2016-01至2020-12���,研究骨干
[13] 國家自然科學基金重大項目����,51490654����,頁巖油氣多尺度滲流特征與開采理論�,2015-01至2019-12�����,研究骨干
[14] 國家自然科學基金重點項目���,51234007�,頁巖氣藏開采基礎研究�,2013-01至2017-12���,研究骨干
獎勵與榮譽:
[1] 中國發明協會發明創業獎創新獎一等獎(排名第3)��,2022
[2] 中國科協青年人才托舉工程�����,2021
[3] 山東省優秀博士論文����,2021
[4] 中國石油和化工自動化行業科學技術獎科技進步一等獎(排名第7)�����,2021
[5] 中國石油大學(華東)校長獎��,2020
[6] 山東省研究生優秀成果一等獎����,2019
[7] 孫越崎優秀學生獎�����,2019
[8] 中國石油大學(華東)學術十杰����,2018
社會與學術兼職:
[1] 《石油科學通報》執行編委
[2] International journal of coal science & technology科學編輯
[3] Petroleum Science青年編委
[4] Advances in Geo-Energy Research 青年編委
[5] Deep Underground Science and Engineering 青年編委
[6] 《天然氣工業》青年編委
[7] 《工程科學學報》青年編委
[8] 《油氣地質與采收率》首屆青年編委
[9] 《油氣藏評價與開發》首屆青年編委
[10] Energies客座編輯
[11] Artificial Intelligence in Geosciences客座編輯
[12] Frontiers in Earth Science 客座編輯
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