中国石油大学（北京）石油工程学院

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油气井工程系

宋文辉

发布时间：2024-03-15来源：

姓名：宋文辉

职称：副教授（校优秀青年学者）

教育和工作经历：

2010.09 － 2014.07 中国石油大学（华东），石油工程，本科

2013.01 － 2013.07 澳大利亚新南威尔士大学，国家留学基金委优秀本科生

2014.09 － 2020.06 中国石油大学（华东），油气田开发工程，硕博连读，博士

2015.12 － 2016.12 英国赫瑞瓦特大学，联合培养

2018.12 － 2019.12 美国德克萨斯大学奥斯汀分校，联合培养

2020.09 － 2023.01 中国石油大学（华东），博士后

2023.09 －至今中国石油大学（北京），师资博士后，副教授

所在系所：油气井工程系

电子邮箱：song_wen_hui_upc@163.com

个人主页：https://scholar.google.com/citations?user=LoTLFg0AAAAJ&hl=en

研究方向：非常规油气藏开发、岩石力学、油气渗流理论与应用、数字岩心技术

代表性论文著作：

[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] 夏海帮,韩克宁,宋文辉*，等.页岩气藏多尺度孔缝介质压裂液微观赋存机理研究[J].油气藏评价与开发,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.(主编邀稿)

[4] Song, W., Prodanović, 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] 宋文辉, 刘磊, 孙海, 张凯, 杨永飞, 姚军. (2021). 基于数字岩心的页岩油储层孔隙结构表征与流动能力研究. 油气藏评价与开发, 11(4), 497-505（期刊年度优秀论文）

[14] Song, W., Yin, Y., Landry, C., Prodanović, 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., Prodanović, 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] 姚军, 宋文辉, 李阳, 等. 有机质孔隙对页岩气流动能力影响研究. 中国科学：物理学力学天文学, 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] 宋文辉, 姚军, 李阳, 等. 孔隙尺度下岩性分类及参数粗化. 科学通报, 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.

代表性专利与软著:

[1] 宋文辉，姚军，张凯。一种基于双重介质孔隙网络模型的页岩渗透率解释方法。2021106954210（已授权）

[2] 宋文辉，姚军，张凯。一种区域结构差异化的岩石多尺度孔隙网络模型构建方法。2021106290370（已授权）

[3] 姚军，宋文辉，王晓宇。一种基于CT扫描图像的岩石孔渗测量方法。2020111371744（已授权）

[4] 贾存奇，姚军，宋文辉，黄朝琴。一种碳酸盐岩酸化数值模拟方法。2020107700113（已授权）

[5] 宋文辉。页岩储层数字岩心孔隙结构和流动能力分析软件V1.0。2021SR1366275。

科学研究项目：

[1] 中国石油大学（北京）优秀青年学者培育计划，主持

[2] 国家自然科学基金青年基金，考虑应力场-化学场耦合的页岩油藏注二氧化碳微观渗流模拟研究，2022-2025，主持

[3] 中国科协青年人才托举工程，油气渗流，2021-2024，主持

[4] 中国博士后国资计划B档资助，2013-2025，主持

[5] 中国石油天然气股份有限公司塔里木油田分公司，万米深层岩石力学基础理论及其应用，2023-2026，研究骨干

[6] 山东省自然科学基金，基于数字岩心的深层页岩气藏受限流体微观渗流机理研究，2022-2024，主持

[7] 页岩气评价与开采四川省重点实验室开放基金：考虑受限相态的深层页岩气藏渗流机理及产能模拟方法，主持

[8] 山东省博士后创新项目一等资助，热流固耦合作用下深层页岩气藏渗流机理及模拟方法研究，2021-2022，主持

[9] 青岛市博士后应用项目，热流固耦合作用下深层页岩多相多组分微观渗流机理及模拟方法研究，2021-2022，主持

[10] 国家自然科学基金委员会，重点项目，深层超深层油气藏开发基础理论研究，2021-2025，研究骨干

[11] 中石化华东局，南川地区页岩气藏储层精细描述和开发评价研究，2021-2022，研究骨干

[12] 科技部，国家油气重大专项专题，2016ZX05061-014，基于数字岩心的页岩气藏微观流动模拟及产能评价方法研究，2016-01至2020-12，研究骨干

[13] 国家自然科学基金重大项目，51490654，页岩油气多尺度渗流特征与开采理论，2015-01至2019-12，研究骨干

[14] 国家自然科学基金重点项目，51234007，页岩气藏开采基础研究，2013-01至2017-12，研究骨干

奖励与荣誉：

[1] 中国发明协会发明创业奖创新奖一等奖（排名第3），2022

[2] 中国科协青年人才托举工程，2021

[3] 山东省优秀博士论文，2021

[4] 中国石油和化工自动化行业科学技术奖科技进步一等奖（排名第7），2021

[5] 中国石油大学（华东）校长奖，2020

[6] 山东省研究生优秀成果一等奖，2019

[7] 孙越崎优秀学生奖，2019

[8] 中国石油大学（华东）学术十杰，2018

社会与学术兼职：

[1] 《石油科学通报》执行编委

[2] International journal of coal science & technology科学编辑

[3] Petroleum Science青年编委

[4] Advances in Geo-Energy Research 青年编委

[5] Deep Underground Science and Engineering 青年编委

[6] 《天然气工业》青年编委

[7] 《工程科学学报》青年编委

[8] 《油气地质与采收率》首届青年编委

[9] 《油气藏评价与开发》首届青年编委

[10] Energies客座编辑

[11] Artificial Intelligence in Geosciences客座编辑

[12] Frontiers in Earth Science 客座编辑