謝馳宇

2024.03- 至今，教授，北京航空航天大學，宇航學院推進系

2022.01-2024.02，副教授，北京科技大學，土木與資源工程學院建築環境與能源工程系

2021.09-2021.12，技術顧問，美國，道達爾勘探和開發美國分公司（TOTAL E&P USA, Inc.）

2018.09-2021.08，博士後，美國，德克薩斯大學奧斯汀分校，石油與地質工程系

2015.12-2016.03，博士訪學，英國，帝國理工學院，地球科學與工程學院 Martin Blunt 院士課題組

2012.09-2018.07，博 士，清華大學，航天航空學院工程力學系

2008.09-2012.07，學 士，華中科技大學，能源與動力工程學院

[1] 流體力學基礎：多相流、非牛頓流體力學、界面效應、滲流力學、流固耦合

[2] 套用領域：航空航天、能源環境、石油地質、生命健康

[3] 研究方法：微流控技術、分子動力學模擬(MD)、格子Boltzmann模擬(LBM)、OpenFOAM、人工智慧

長期從事航空航天、能源環境、生命健康等領域中多相、複雜非牛頓流體的滲流力學機理及套用研究。建立和發展了一系列多尺度、多相非牛頓流體力學模型，發現了粘彈性振盪效應，豐富了凝膠聚合物滲流過程的微觀機理認知。在物理學頂刊《Physical Review Letters》和流體力學頂刊《Journal of Fluid Mechanics》（封面）等國內外學術期刊發表論文40餘篇。學術報告20餘次，在第十二屆全國流體力學學術會議、2023年非牛頓流體力學研討會等作邀請報告，並獲2020年《國際水資源計算方法》會議最佳青年學者報告獎。研究工作獲國家級青年人才項目、國自然青年科學基金等資助。

《Advances in Geo-Energy Research》青年編委；

《套用力學學報》青年編委（優秀）；

《工程科學學報》青年編委；

《套用數學和力學》首屆青年編委；

《石油科學通報》首屆執行編委；

北京能源與環境學會專家委員（石油天然氣、能源與環境組）。

1. H. Song, J. Lao, H. Yang, B. Pan, L. Liu and C. Xie*. The pinning dynamics of a non-wetting droplet penetrating a permeable substrate. Physics of Fluids, 35(6): 062107, 2023. (通訊作者)

2. C. Xie, J. Zhu, J. Wang, J. Yang and H. Song*. Direct Prediction of Relative Permeability Curve from 3D Digital Rock Images Based on Deep Learning Approaches. International Journal of Rock Mechanics and Mining Sciences. 170: 105544, 2023. (地質礦業1區)

3. C. Xie, J. Zhu, H. Yang, J. Wang, L. Liu and H. Song*. Relative Permeability Curve Prediction from Digital Rocks with Variable Sizes Using Deep Learning. Physics of Fluids, 35(9): 096605, 2023.

4. C. Xie, X. Li, W. Qu, R. Ji, J. Wang and H. Song*. Numerical prediction of Portal hypertension by a hydrodynamic blood flow model combing with the fractal theory. Journal of Biomechanics. 150: 111504, 2023. (生物力學經典期刊)

5. L. Cha, Q. Feng, S. Wang, S. Xu and C. Xie*. Pore-Scale Modeling of Immiscible Displacement in Porous Media: The Effects of Dual Wettability. SPE Journal, 28(01): 239-250, 2023. (共同通訊，石油工程頂刊)

6. L. Liu, S. Chen, L. Feng, J. Zhu, J. Zhang, L. Zhang and C. Xie*. A novel distributed order time fractional model for heat conduction, anomalous diffusion, and viscoelastic flow problems. Computers and Fluids, 265: 105991, 2023. (通訊作者)

7. C. Xie, S. Du, J. Wang, J. Lao and H. Song. Intelligent modeling with physics-informed machine learning for petroleum engineering problems. Advances in Geo-Energy Research, 8(2): 71-75, 2023.

8. C. Xie, P. Qi, K. Xu, J. Xu and M.T. Balhoff*. Oscillative trapping of a droplet in a converging channel induced by elastic instability. Physical Review Letters. 128: 054502, 2022. (物理學頂刊)

9. H. Song, J. Zhu, C. Wei, J. Wang, S. Du and C. Xie*. Data-driven physics-informed interpolation evolution combining historical-predicted knowledge for remaining oil distribution prediction. Journal of Petroleum Science and Engineering, 217: 110795, 2022. (通訊作者)

10.C. Xie*, P. Qi, K. Xu, J. Xu and M.T. Balhoff. A new mechanism of viscoelastic fluid for enhanced oil recovery: Viscoelastic oscillation. Advances in Geo-Energy Research, 6(3): 267-268, 2022. (研究亮點)

11.C. Xie, W. Lei, M.T. Balhoff, M. Wang* and S. Chen. Self-adaptive preferential flow control using dispersed polymers in heterogeneous porous media. Journal of Fluid Mechanics. 906: A10, 2021. (封面文章, 流體力學頂刊)

12.L. Cha, C. Xie*, Q. Feng, and M.T. Balhoff. Geometric criteria for the snap-off of a nonwetting droplet in pore-throat channels with rectangular cross-sections. Water Resources Research. 57: e2020WR029476, 2021. (共同通訊作者, 水資源1區)

13.C. Xie*, and M.T. Balhoff. Lattice Boltzmann Modeling of the Apparent Viscosity of Thinning-Elastic Fluids in Porous Media. Transport in Porous Media. 137: 63–86, 2021. (通訊作者)

14.C. Xie*, K. Xu, K. Mohanty, M. Wang and M.T. Balhoff*. Non-wetting droplet oscillation and displacement by viscoelastic fluids.Physical Review Fluids. 5: 063301, 2020. (共同通訊)

15.C. Xie, W. Lei and M. Wang*. Lattice Boltzmann model for three-phase viscoelastic fluid flow. Physical Review E, 97: 023312, 2018.

16.C. Xie, W. Lv, and M. Wang*. Shear-thinning or Shear-thickening Fluid for Better EOR? — A Direct Pore-scale Study. Journal of Petroleum Science and Engineering, 161: 683-691, 2018.

17.C. Xie, A.Q. Raeini, Y. Wang, M. Blunt* and M. Wang*. An improved pore-network model including viscous coupling effects using direct simulation by the lattice Boltzmann method. Advances in Water Resources. 100: 26-34, 2017. (水資源1區)

18.C. Xie, J. Zhang, V. Bertola and M. Wang*. Droplet evaporation on a horizontal substrate under gravity field by mesoscopic modeling. Journal of Colloid and Interface Science, 463: 317-323, 2016. (化學1區)

19.C. Xie, G. Liu and M. Wang*. Evaporation Flux Distribution of Drops on a Hydrophilic or Hydrophobic Flat Surface by Molecular Simulations. Langmuir, 32: 8255-8264, 2016.

20.C. Xie, J. Zhang, V. Bertola and M. Wang*. Lattice Boltzmann Modeling for Multiphase Viscoplastic Fluid Flow. Journal of Non-Newtonian Fluid Mechanics, 234: 118-128, 2016.

21.C. Xie, J. Wang, N. Pan, D. Wang and M. Wang*. Lattice Boltzmann Modeling of Thermal Conduction in Composite Materials with Thermal Contact Resistance. Communications in Computational Physics, 17: 1037-1055, 2015.

1.宋洪慶, 都書一, 王九龍, 勞浚銘, 謝馳宇. 數智流體力學的發展及油氣滲流領域套用. 力學學報, 55: 1-27, 2023.

2.謝馳宇, 張建影, 王沫然. 多相非牛頓流體驅替過程的格子 Boltzmann 模擬. 計算物理, 33: 147-155, 2016.

3.謝馳宇, 張建影, 王沫然. 液滴在固體平表面上均勻蒸發過程的格子 Boltzmann 模擬. 套用數學和力學, 35: 247-253, 2014. （期刊2014年度高被引論文）

4.王屹航, 楊元凱, 謝馳宇, 張樹雄, 王沫然. 電池單體熱分析. 電子技術, 2020.