當前位置: 油氣藏工程研究所
孫海 教授
作者: 發布者:趙小明 發布時間:2022-01-20 訪問次數:15594
»姓名:孫海 »職稱:教授

»單位:油氣藏工程研究所 »最高學曆/學位:博士研究生
»學科:油氣田開發工程學科,石油與天然氣工程領域 »所學專業:油氣田開發工程
»電子郵箱:sunhaiupc@sina.com;sunhai@upc.edu.cn
»聯係電話:18660291793
»地址郵編:山東省青島黃島區長江西路66號中國石油大學工科樓B座必威app精裝版客服 266580
»個人主頁:
學習與工作經曆
個人簡介:
孫海,男,1984年10月生,山東臨朐人,博士,教授,國家優青獲得者。主要從事非常規油氣藏滲流機理、多孔介質中微觀流動模擬及多尺度流動模擬等方麵的科研工作,近年來承擔國家自然科學基金、國家油氣重大專項等省部級以上科研課題10餘項;發表論文100餘篇,其中SCI 收錄論文70餘篇,論文總被引2600餘次,H因子30;授權發明專利、軟件著作權20項;擔任SCI期刊編委及30餘個國際期刊審稿人;獲教育部自然科學一等獎1項、省部級科技進步二等獎3項。



學習與工作經曆:
2003.09-2007.07,中國石油大學(華東),信息與計算科學專業學士;
2007.09-2013.12,中國石油大學(華東),油氣田開發工程博士;
2014.01-2016.08,中國石油大學(華東),地質學博士後;
2014.05-2014.11,沙特KAUST大學(King Abdullah University of Science and Technology)訪問學者;
2016.09-2016.12:Betway88必威 油藏工程係,講師;
2017.01-2021.12:Betway88必威 油藏工程係,副教授;
2020.02-2021.01:美國休斯敦大學國家公派訪問學者;
2022.01-至今:Betway88必威 油氣藏工程研究所,教授。

研究方向
(1) 頁岩油氣藏、致密油氣藏滲流機理及多尺度流動數值模擬;
(2) 微觀流動模擬方法與理論(數字岩心、LBM、直接求解N-S方程、孔隙網絡模型);
(3) 尺度升級方法研究(均化理論、體積平均法)
(4) 基於機器學習的油藏模擬及產能預測
(5) 數值模擬軟件研發

博士招生專業:082002油氣田開發工程、0857資源與環境(085706石油與天然氣工程);
碩士招生專業:082002油氣田開發工程、0857資源與環境(085706石油與天然氣工程);
歡迎具有石油工程、計算機、物理、數學、力學等相關專業背景的學生報考研究生!

學術兼職
(1)美國石油工程師協會(SPE)會員
(2)國際多孔介質協會(InterPore)會員
(3)國家自然科學基金項目評議人
(4)SCI期刊Energies 編委
(5)Fuel, Energy & Fuel、Environmental Earth Sciences, Transport in Porous Media, Petroleum Science, Journal of Petroleum Science and Engineering等期刊審稿人

主講課程
《高等滲流力學》

指導研究生
指導研究生:張文娟、張敏、宋文輝、王東英、王振、樊偉鵬、段煉等。

承擔科研課題
1. 國家自然科學基金(優秀青年基金項目)“多尺度油氣滲流力學”(項目編號:52122402),2022.1~2024.12.
2. 國家自然科學基金(青年科學基金項目)“微納尺度多孔介質中氣體運移機理研究” (項目編號:51504276),2016.1~2018.1.
3. 中國博士後基金特別資助項目“頁岩微納尺度多相流運移機製及其尺度升級研究”(項目編號:2015T80762),2015.1~2015.1.
4. 中國博士後基金麵上資助項目“頁岩氣藏多尺度流動模擬研究”(項目編號:2014M551989),2014.1~2015.12.
5. 山東省自然科學基金“頁岩氣藏微納尺度基質孔隙氣體運移機理研究”(項目編號:ZR2014EEP018,2014.7~2016.12.
6. 華北油田橫向課題,煤層氣微觀流動特征實驗研究,2018.7-2019.9,負責人;
7. 青島市博士後應用研究項目資助“致密砂岩油流動機理及動用條件研究”,2014.1-2015.12..
8. 中石化勘探開發研究院橫向課題,頁岩油孔縫流動規律及單井流動模擬程序測試,2018.10-2019.9;
9. 中石化勘探開發研究院橫向課題,頁岩油三維數字岩心構建及微觀流動模擬程序測試,2018.10-2019.9;
10. 中石化勘探開發研究院橫向課題,彭水地區頁岩氣吸附/解吸實驗及規律研究,2017.07-2018.10;
11. 長慶油田橫向課題,致密油儲層注水吞吐機理可視化研究,2018.6-2019.5;
12. 校人才引進課題,考慮微觀運移機製的頁岩氣藏宏觀數值模擬研究;
13. 校自主創新項目,頁岩油儲層多尺度數字岩心構建及流動機製研究,2017.01-2019.12;
14. 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,第二負責人/技術首席;
15. 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,第二負責人/技術首席;
16. 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,第二負責人/技術首席;
17. 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,第二負責人/技術首席;
18. 中海油研究總院橫向課題 “海外頁岩油氣產能評價技術與方法研究-頁岩油氣特殊機理模型及其對產能的影響分析”,2016.8-2018.3;
19. 中石化勘探開發研究院橫向項目“致密砂岩儲層數學模型建立及數值求解研究, 2014.7-2015.12。
20. 中石化頁岩油重點實驗室開放課題,頁岩氣藏複雜多孔介質氣水兩相流動特征研究,2017.07-2018.08。
21. 中石化頁岩油研發中心開放課題,頁岩氣藏複雜多孔介質氣水兩相流動特征研究,2017.11-2018.10。



獲獎情況
1. 非常規油氣藏多尺度滲流理論與方法, 教育部自然科學一等獎,省部級,2018,排名第2;
2. 頁岩油氣藏多尺度多相多組分數值模擬與高效開發技術及應用,中國石油和化學工業聯合會科技進步二等獎,省級,2020,排名第1;
3. 非常規油氣開發數字岩心技術及應用,中國石油和化學工業聯合會科技進步二等獎,省級,2014,排名第3;
4. 基於數字岩心技術的微觀滲流理論方法及其應用,青島市科技進步獎二等獎,省級,2014,排名第3。

榮譽稱號
1. 國家優秀青年科學基金獲得者
2.山東省優秀博士學位論文獲得者
3 第五屆全國石油工程設計大賽優秀指導教師

論文
近年來在《International Journal of Heat and Mass Transfer》、《Fuel》、《International Journal of Greenhouse Gas Control》、《Energy》、《中國科學: 物理學 力學 天文學》、《石油學報》等國內外權威期刊發表論文100餘篇(其中SCI收錄70篇,EI收錄59篇,ESI高被引論文3篇),成果受到郭尚平、陶文銓、何雅玲、李根生、John Chen等國內外院士的正麵引用和高度評價,目前總他引2600餘次,H因子30。部分論文如下:
1. Q. Zhu, W. Song, Y. Yang, X. Lu, L. Liu, Y. Zhang, H. Sun, J. Yao, An advection-diffusion-mechanical deformation integral model to predict coal matrix methane permeability combining digital rock physics with laboratory measurements, Applied Geochemistry, 126 (2021).
2. L. Zhang, C. Xu, Y. Guo, G. Zhu, S. Cai, X. Wang, W. Jing, H. Sun, Y. Yang, J. Yao, The Effect of Surface Roughness on Immiscible Displacement Using Pore Scale Simulation, Transport In Porous Media, (2021).
3. K. Zhang, X. Zhao, G. Chen, M. Zhao, J. Wang, C. Yao, H. Sun, J. Yao, W. Wang, G. Zhang, A double-model differential evolution for constrained waterflooding production optimization, Journal Of Petroleum Science And Engineering, 207 (2021).
4. X. Yu, Y. Wang, Y. Yang, K. Wang, J. Yao, K. Zhang, H. Sun, L. Zhang, W. Song, V. Lisitsa, Effect of particle content on relative permeabilities in water flooding, Journal Of Petroleum Science And Engineering, 205 (2021).
5. Y. Yang, S. Cai, J. Yao, J. Zhong, K. Zhang, W. Song, L. Zhang, H. Sun, V. Lisitsa, Pore-scale simulation of remaining oil distribution in 3D porous media affected by wettability and capillarity based on volume of fluid method, International Journal Of Multiphase Flow, 143 (2021).
6. X. Yan, H. Sun, Z. Huang, L. Liu, P. Wang, Q. Zhang, J. Yao, Hierarchical Modeling of Hydromechanical Coupling in Fractured Shale Gas Reservoirs with Multiple Porosity Scales, Energy & Fuels, 35(7) (2021) 5758-5776.
7. L. Xiao, G. Zhu, L. Zhang, J. Yao, H. Sun, Effects of pore-size disorder and wettability on forced imbibition in porous media, Journal Of Petroleum Science And Engineering, 201 (2021).
8. D. Wang, J. Yao, Z. Chen, W. Song, H. Sun, X. Yan, Assessment of extended Derjaguin-Landau-Verwey-Overbeek-based water film on multiphase transport behavior in shale microfractures, Aiche Journal, 67(4) (2021).
9. D. Wang, W. Song, J. Yao, Q. Yang, X. Yan, H. Sun, A FRACTAL MULTIPHASE TRANSPORT MODEL IN SHALE POROUS MEDIA WITH MULTIPLE TRANSPORT MECHANISMS AND ROCK-FLUID INTERACTION, Fractals-Complex Geometry Patterns And Scaling In Nature And Society, 29(2) (2021).
10. W. Song, J. Yao, K. Zhang, H. Sun, Y. Yang, 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, (2021).
11. Y. Guo, L. Zhang, H. Sun, Y. Yang, Z. Xu, B. Bao, J. Yao, The Simulation of Liquid Flow in the Pore Network Model of Nanoporous Media, Journal Of Energy Resources Technology-Transactions Of the Asme, 143(3) (2021).
12. D. Fan, H. Sun, J. Yao, K. Zhang, X. Yan, Z. Sun, Well production forecasting based on ARIMA-LSTM model considering manual operations, Energy, 220 (2021).
13. Y. Bai, L. Liu, W. Fan, H. Sun, Z. Huang, J. Yao, Coupled compositional flow and geomechanics modeling of fractured shale oil reservoir with confined phase behavior, Journal Of Petroleum Science And Engineering, 196 (2021).
14. M. Zhao, K. Zhang, G. Chen, X. Zhao, C. Yao, H. Sun, Z. Huang, J. Yao, A surrogate-assisted multi-objective evolutionary algorithm with dimension-reduction for production optimization, Journal Of Petroleum Science And Engineering, 192 (2020).
15. Y. Yang, L. Tao, H. Yang, S. Iglauer, X. Wang, R. Askari, J. Yao, K. Zhang, L. Zhang, H. Sun, Stress Sensitivity of Fractured and Vuggy Carbonate: An X-Ray Computed Tomography Analysis, Journal Of Geophysical Research-Solid Earth, 125(3) (2020).
16. Y. Yang, J. Liu, J. Yao, J. Kou, Z. Li, T. Wu, K. Zhang, L. Zhang, H. Sun, Adsorption behaviors of shale oil in kerogen slit by molecular simulation, Chemical Engineering Journal, 387 (2020).
17. Y. Yang, Y. Li, J. Yao, S. Iglauer, L. Luquot, K. Zhang, H. Sun, L. Zhang, W. Song, Z. Wang, Dynamic Pore-Scale Dissolution by CO2-Saturated Brine in Carbonates: Impact of Homogeneous Versus Fractured Versus Vuggy Pore Structure, Water Resources Research, 56(4) (2020).
18. Z. Wang, W. Fan, H. Sun, J. Yao, G. Zhu, L. Zhang, Y. Yang, Multiscale flow simulation of shale oil considering hydro-thermal process, Applied Thermal Engineering, 177 (2020).
19. X. Wang, J. Yao, L. Gong, H. Sun, Y. Yang, W. Liu, Y. Li, Numerical study on particle transport and deposition in rough fractures, Oil & Gas Science And Technology-Revue D Ifp Energies Nouvelles, 75 (2020).
20. D. Wang, J. Yao, Z. Chen, W. Song, H. Sun, Multiphase flow model from pores to cores in organic-rich shale, Journal Of Petroleum Science And Engineering, 194 (2020).
21. W. Song, J. Yao, D. Wang, Y. Li, H. Sun, Y. Yang, Dynamic pore network modelling of real gas transport in shale nanopore structure, Journal Of Petroleum Science And Engineering, 184 (2020).
22. W. Song, J. Yao, Y. Li, H. Sun, D. Wang, X. Yan, GAS-WATER RELATIVE PERMEABILITIES FRACTAL MODEL IN DUAL-WETTABILITY MULTISCALE SHALE POROUS MEDIA DURING INJECTED WATER SPONTANEOUS IMBIBITION AND FLOW BACK PROCESS, Fractals-Complex Geometry Patterns And Scaling In Nature And Society, 28(7) (2020).
23. D. Fan, H. Sun, J. Yao, H. Zeng, X. Yan, Z. Sun, Pressure-Transient Performances of Fractured Horizontal Wells in the Compartmentalized Heterogeneous Unconventional Reservoirs, Energies, 13(19) (2020).
24. G. Chen, K. Zhang, X. Xue, L. Zhang, J. Yao, H. Sun, L. Fan, Y. Yang, Surrogate-assisted evolutionary algorithm with dimensionality reduction method for water flooding production optimization, Journal Of Petroleum Science And Engineering, 185 (2020).
25. L. Zhang, C. Zhang, K. Zhang, L. Zhang, J. Yao, H. Sun, Y. Yang, Pore-Scale Investigation of Methane Hydrate Dissociation Using the Lattice Boltzmann Method, Water Resources Research, 55(11) (2019) 8422-8444.
26. Weipeng Fan, Hai Sun*, Jun Yao*, Dongyan Fan, Kai Zhang. An upscaled transport model for shale gas considering multiple mechanisms and heterogeneity based on homogenization theory. Journal of Petroleum Science and Engineering, 2019,183:106392.
27. Wang, X., Yao, J., Gong, L.*, Sun, H*., Yang, Y., Zhang, L., ... & Liu, W. (2019). Numerical simulations of proppant deposition and transport characteristics in hydraulic fractures and fracture networks. Journal of Petroleum Science and Engineering, 2019,183:106401.
28. Yang Yongfei*,Wang Ke,Zhang Lei,Sun Hai,Zhang Kai,Ma Jingsheng. Pore-scale simulation of shale oil flow based on pore network model[J]. Fuel, 2019, 251: 683-692
29. 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.
30. 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.https://doi.org/10.1016/j.advwatres.2019.06.012
31. Weipeng Fan, Hai Sun*, Jun Yao*, Dongyan Fan, Yongfei Yang ,Homogenization approach for liquid flow within shale system considering slip effect, Journal of Cleaner Production, 235(2019):146-157.
32. D. Wang, J. Yao, Z. Chen, W. Song, H. Sun, Image-based core-scale real gas apparent permeability from pore-scale experimental data in shale reservoirs, Fuel, 254 (2019) 115596.
33. Song Wenhui, Wang Dongying, Yao Jun, Li Yang, Sun Hai, Yang Yongfei, Zhang Lei, 2019. Multiscale image-based fractal characteristic of shale pore structure with implication to accurate prediction of gas permeability, Fuel, 241:522-532.
34. Zhang Liming, Deng Zekun, Zhang Kai, Long Tao, Desbordes Joshua Kwesi, Sun Hai, Yang Yongfei, 2019. Well-Placement Optimization in an Enhanced Geothermal System Based on the Fracture Continuum Method and 0-1 Programming, Energies, 12(4):709.
35. 樊冬豔,孫海*,姚軍,嚴俠,張凱,張建光,張林.考慮熱流固耦合幹熱岩儲層熱提取解析模型[J].中國石油大學學報(自然科學版),2018,42(06):106-113.
36. F. Gang, S. Nan, J. Tan, X. Yousheng, S. Hai, Y. Jun, Z. Wei, F. Haiping, Hydrophobic nanochannel self-assembled by amphipathic Janus particles confined in aqueous nano-space, Chinese Physics B, 27(3) (2018) 030505.
37. 劉磊,姚軍,孫海,張磊,楊永飛. 考慮微裂縫的數字岩心多點統計學構建方法. 科學通報, 2018, 63
38. J. Zhao, Q. Kang, J. Yao, L. Zhang, Z. Li, Y. Yang, H. Sun, Lattice Boltzmann simulation of liquid flow in nanoporous media, International Journal of Heat and Mass Transfer, 125 (2018) 1131-1143.
39. W. Fan, H. Sun*, J. Yao, D. Fan, K. Zhang, A new fractal transport model of shale gas reservoirs considering multiple gas transport mechanisms, multi-scale and heterogeneity, Fractals, (2018).
40. Z. Li, J. Yao, Z. Ren, H. Sun, L. Zhang, Y. Yang, J. Fan, J. Kou, Accumulation behaviors of methane in the aqueous environment with organic matters, Fuel, 236 (2019) 836-842.
41. L. Lijun, Y. Jun, S. Hai*, H. Zhaoqin, Y. Xia, L. Longlong, Compositional modeling of shale condensate gas flow with multiple transport mechanisms, Journal of Petroleum Science and Engineering, 172 (2019) 1186-1201.
42. W. Song, H. Liu, W. Wang, J. Zhao, H. Sun, D. Wang, Y. Li, J. Yao, Gas flow regimes judgement in nanoporous media by digital core analysis, in: Open Physics, 2018, pp. 448.
43. W. Song, B. Yao, J. Yao, Y. Li, H. Sun, Y. Yang, L. Zhang, Methane surface diffusion capacity in carbon-based capillary with application to organic-rich shale gas reservoir, Chemical Engineering Journal, 352 (2018) 644-654.
44. W. Song, J. Yao, J. Ma, G.D. Couples, Y. Li, H. Sun, 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 (2018) 707-721.
45. Liu, P., Yao, J., Couples, G. D., Ma, J., Huang, Z., & Sun, H. (2017). Modeling and simulation of wormhole formation during acidization of fractured carbonate rocks. Journal of Petroleum Science and Engineering, 154, 284-301.
46. Liu, P., Yao, J., Couples, G. D., Huang, Z., Sun, H., & Ma, J. (2017). Numerical modelling and analysis of reactive flow and wormhole formation in fractured carbonate rocks. Chemical Engineering Science, 172, 143-157.
47. Zhang, K., Zhang, X., Zhang, L., Li, L., Sun, H., Huang, Z., & Yao, J. (2017). Assisted history matching for the inversion of fractures based on discrete fracture-matrix model with different combinations of inversion parameters. Computational Geosciences, 21(5-6), 1365-1383.
48. Zhao, J., Kang, Q., Yao, J., Viswanathan, H., Pawar, R., Zhang, L., & Sun, H. (2018). The Effect of Wettability Heterogeneity on Relative Permeability of Two‐Phase Flow in Porous Media: A Lattice Boltzmann Study. Water Resources Research, 54(2), 1295-1311.
49. 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.
50. 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.
51. Song, W., Yao, J., Li, Y., Sun, H., & Yang, Y. (2018). Fractal models for gas slippage factor in porous media considering second-order slip and surface adsorption. International Journal of Heat and Mass Transfer, 118, 948-960.
52. 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.
53. Yan, X., Huang, Z., Yao, J., Li, Y., Fan, D., Sun, H., & Zhang, K. (2018). An Efficient Numerical Hybrid Model for Multiphase Flow in Deformable Fractured-Shale Reservoirs. SPE Journal.
54. 楊永飛,劉誌輝,姚軍,王晨晨,孫海,張磊,劉磊,趙建林,安森友,張文傑,劉鵬飛.基於疊加數字岩心和孔隙網絡模型的頁岩基質儲層孔隙空間表征方法[J].中國科學:技術科學,2018,48(05):488-498.
55. 趙建林,姚軍,張磊,楊永飛,孫海,孫致學,白玉湖.微裂縫對致密多孔介質中氣體滲流的影響機製[J].中國石油大學學報(自然科學版),2018,42(01):90-98.
56. 姚軍,孫海*,李愛芬,楊永飛,黃朝琴,王月英,張磊,寇建龍,謝昊君,趙建林,嚴俠,張慶福,任曉霞,韓文成,劉丕養,朱光普,宋文輝,隋宏光,安森友,王振,劉文正,張旭,李正.現代油氣滲流力學體係及其發展趨勢[J].科學通報,2018,63(04):425-451.
57. 孫海,姚軍,YALCHIN Efendiev.基於均勻化理論的頁岩基岩運移機製尺度升級研究[J].中國科學:物理學 力學 天文學,2017,47(11):119-128.
58. 張風昀,隋宏光,姚軍,孫海,張磊.頁岩氣在有機質中吸附規律的分子模擬研究[J].中國科學:物理學 力學 天文學,2017,47(11):146-152.
59. 張凱,張秀清,張黎明,張進,孫海,黃朝琴,姚軍.基於改進的同步擾動隨機逼近算法的聚表二元驅優化[J].中國石油大學學報(自然科學版),2017,41(05):102-109.
60. 劉禮軍,姚軍,孫海,白玉湖,徐兵祥,陳嶺.考慮啟動壓力梯度和應力敏感的頁岩油井產能分析[J].石油鑽探技術,2017,45(05):84-91.
61. 姚軍,宋文輝,李陽,孫海,楊永飛,張磊.有機質孔隙對頁岩氣流動能力影響研究[J].中國科學:物理學 力學 天文學,2017,47(09):55-66.
62. 朱光普,姚軍,張磊,孫海,李愛芬,張凱.特高含水期剩餘油分布及形成機理[J].科學通報,2017,62(22):2553-2564.
63. 宋文輝,姚軍,CHRISTOPH Arns,李陽,張磊,楊永飛,孫海.孔隙尺度下岩性分類及參數粗化[J].科學通報,2017,62(16):1774-1787.
64. 朱光普,姚軍,孫海,張磊,李愛芬.基於界麵追蹤的黏彈性流體微觀流動模擬[J].科學通報,2016,61(36):3973-3981.
65. Sun Hai, Yao Jun, Gao Sunhua, et al. Numerical study of CO2 enhanced natural gas recovery and sequestration in shale gas reservoirs[J]. International Journal of Greenhouse Gas Control, 2013, 19: 406-419.
66. Hai Sun, Jun Yao, Dong-yan Fan, et al. Gas Transport Mode Criteria in Ultra-tight Porous Media[J]. International Journal of Heat and Mass Transfer,2015, 83:192-199.
67. Hai Sun, Jun Yao*, Yingchang Cao, et al. Characterization of gas transport behaviors in shale gas and tight gas reservoirs by digital rock analysis [J]. International Journal of Heat and Mass Transfer, 2017,104:227-239
68. Yao Jun, Sun Hai, Fan Dong-yan, et al. Numerical Simulation of Gas Transport Mechanisms in Tight Shale Gas Reservoir[J]. Petroleum Science, 2013,10: 528-537.
69. Wenhui Song, Jun Yao*, Yang Li, Hai Sun*, Lei Zhang, Yaongfei Yang, Jianlin Zhao. Apparent gas permeability in an organic-rich shale reservoir[J]. Fuel, 2016, 181: 973-984.
70. Fan Dongyan,Yao Jun,Sun Hai* ,Zeng Hui,Song Wenhui,A Composite Model of Hydraulic Fractured Horizontal Well with Stimulated Reservoir Volume in tight Oil&Gas Reservoir[J]. Journal of Natural Gas Science and Engineering, 2015, 24: 115-123.
71. 孫海, 姚軍, 廉培慶, 樊冬豔, 孫致學. 考慮基岩向井筒供液的壓裂水平井非穩態模型[J]. 石油學報, 2012, 33(01): 117-122. (EI檢索)
72. 孫海,姚軍,張磊等. 基於孔隙結構的頁岩滲透率計算方法[J]. 中國石油大學學報(自然科學版),2014,38(02):92-98. (EI檢索)
73. 姚軍, 孫海, 樊冬豔, 黃朝琴, 孫致學, 張國浩. 頁岩氣藏運移機製及數值模擬[J]. 中國石油大學學報(自然科學版), 2013, 37(01): 91-98. (EI檢索)
74. 姚軍,孫海,黃朝琴等. 頁岩氣藏開發中的關鍵力學問題[J]. 中國科學: 物理學 力學 天文學, 2013, 43: 1527–1547.
75. Wenjuan Zhang ,Jun Yao,Hai Sun,Electrokinetic coupling in single phase flow in periodically changed capillary with a very small throat size,International Journal of Heat and Mass Transfer,2015,84:722-728.
76. Min Zhang, Jun Yao, Hai Sun, Jianlin Zhao, Dongyan Fan, Zhaoqin Huang, Yueying Wang. Triple-continuum modeling of shale gas reservoirs considering the effect of kerogen[J]. Journal of Natural Gas Science and Engineering, 2015, 24: 252-263.
77. Zhu Guang-pu, Yao Jun, Sun Hai, Zhang min, Xie Meijie, Sun Zhixue, Lu Tao. The numerical simulation of thermal recovery based on hydraulic fracture heating technology in shale gas reservoir[J]. Journal of Natural Gas Science and Engineering, 2016, 28: 305-316.
78. Wang Wei, Yao Jun, Sun Hai, Song Wenhui. Influence of gas transport mechanisms on the productivity of multi-stage fractured horizontal wells in shale gas reservoirs[J]. Petroleum Science, 2015: 1-10. (SCI,IF= 0.901)
79. Fan Dongyan, Yao Jun, Sun Hai, et al. Inflow performance of multiple-fractured horizontal well based on discrete-fracture model[J]. Petroleum Science and Technology, 2013,31(5) 492-499.
80. 孫海, 姚軍,孫致學.頁岩氣數值模擬技術及展望[J]. 油氣地質與采收率,2012, 19(1):46-49.
81. 張磊, 姚軍, 孫海, 孫致學, 高瑩, 趙建林. 基於數字岩心技術的氣體解析/擴散格子Boltzmann模擬[J]. 石油學報, 2015, 36(2). (EI 檢索)
82. 張磊, 姚軍, 孫海, 孫致學. 利用格子Boltzmann方法計算頁岩滲透率[J]. 中國石油大學學報(自然科學版), 2014, 38(1): 87-91. (EI檢索)
83. 樊冬豔,姚軍,孫海,謝銀伍,曾慧,張凱,頁岩氣藏分段壓裂水平井不穩定滲流模型,中國石油大學學報(自然科學版),2014,(05):116-123. (EI檢索)
84. 樊冬豔,姚軍,孫海,曾慧, 考慮多重運移機製耦合頁岩氣藏壓裂水平井數值模擬,力學學報,2015,47(6):906-915. (EI檢索)
85. Hui Zeng, Dongyan Fan, Jun Yao, Hai Sun, Pressure and Rate Transient Analysis of Composite Shale Gas Reservoirs Considering Multiple Mechanisms, Journal of Natural Gas Science and Engineering, 2015, 27: 914-925.
86. Zhu Guangpu, Yao Jun, Li Aifen, Sun Hai, Zhang Lei. Pore-scale investigation of carbon dioxide enhanced oil recovery, Energy & Fuels, 2017,DOI: 10.1021/acs.energyfuels. 7b00058(SCI二區TOP,IF=2.835)
87. Wang Chenchen,Yao Jun,Wu Keliu,Ren Guoxuan,Sun Hai,Yang Yongfei,Gao Ying,Chen Zhangxin. Organic and Inorganic Pore Structure Analysis in Shale Matrix with Superposition Method. in Unconventional Resources Technology Conference. Denver, Colorado, USA.2014[C]. Society of Petroleum Engineers. (EI檢索)
88. Wenjuan Zhang,Jun Yao,Ying Gao, Qi Zhang, Hai Sun. Analysis of electrokinetic coupling of fluid flow in porous media using a 3-D pore network. Journal of Petroleum Science and Engineering.
89. Zhu Guangpu, Jun Yao*, Lei Zhang, Hai Sun, Aifen Li. The investigation of dynamic contact angle using a direct numerical simulation method [J]. Langmuir (2016), DOI: 10.1021/acs.langmuir.6b02543.
90. Lei Zhang, Jun Yao*, Jianlin Zhao, Aifen Li, Hai Sun, Yujie Wan, Yunhe Su. The influence of wettability and shut-in time on oil recovery through microscale simulation based on an ideal model [J]. Journal of Natural Gas Science and Engineering, DOI:10.1016/j.jngse.2016.10.032.
91. Yang Yongfei*, Zhang Wenjie, Gao Ying, Wan Yujin, Su Yunhe, An Senyou, Sun Hai, Zhang Lei, Zhao Jianlin, Liu Lei , Liu Pengfei. Influence of stress sensitivity on microscopic pore structure and fluid flow in porous media[J]. Journal of Natural Gas Science and Engineering, 2016, 36:20-31.
92. Zhao Jianlin., Yao Jun*, Li Aifen, Zhang Min, Zhang Lei, Yang Yongfei, Sun, Hai. Simulation of microscale gas flow in heterogeneous porous media based on the lattice Boltzmann method [J]. Journal of Applied Physics, 2016, 120(8): 084306.
93. Zhao Jianlin, Yao Jun, Zhang Min, Zhang Lei, Yang Yongfei, Sun Hai, Li Aifen. Study of Gas Flow Characteristics in Tight Porous Media with a Microscale Lattice Boltzmann Model[J]. Scientific Reports, 2016, 6.
94. Yang Yongfei, Liu Pengfei, Zhang Wenjie, Liu Zhihui, Sun Hai, Zhang Lei, Zhao Jianlin, Song Wenhui, Liu Lei, An Senyou, 2016. Effect of the Pore Size Distribution on the Displacement Efficiency of Multiphase Flow in Porous Media, Open Physics, 14(1):610-616.(SCI)
95. Yao Jun, Zeng QingDong, Huang ZhaoQin, Sun Hai, Zhang Lei, 2017. Numerical modeling of simultaneous hydraulic fracturing in the mode of multi-well pads, Science China Technological Sciences, 60(2):232-242.
96. Liu Lijun, Yao Jun, Zhang Lei, An Senyou, Zhao Jianlin, Sun Hai, 2017. REV-scale simulation of micro-fractured unconventional gas reservoir, Journal of Natural Gas Science and Engineering, doi.org/10.1016/j.jngse.2017.01.010.
97. Song Wenhui, Yao Jun, Li Yang, Yang Yongfei, Sun Hai,2017. New pore size distribution calculation model based on chord length and digital image, Journal of Natural Gas Science and Engineering, doi.org/10.1016/j.jngse.2016.12.041.
98. 張文娟,姚軍,卜亞輝,孫海,考慮流動電位的微米/納米毛細管單相滲流,石油學報,2015,36(1):81-88. (EI檢索)
99. 張磊, 康欽軍, 姚軍, 高瑩, 孫海. 頁岩壓裂中壓裂液返排率低的孔隙尺度模擬與解釋[J]. 科學通報, 2014, 59(32): 3197-3203.
100. 廉培慶, 同登科, 程林鬆, 孫海. 垂直壓裂水平井非穩態條件下的產能分析[J]. 中國石油大學學報(自然科學版), 2009, 33(04): 98-102. (EI檢索)
101. 姚軍,王晨晨,楊永飛,黃朝琴,樊冬豔,孫海. 碳酸鹽岩雙孔隙網絡模型的構建方法和微觀滲流模擬研究[J]. 中國科學:物理學 力學 天文學,2013,07:896-902.
102. 姚軍, 王鑫, 王晨晨, 楊永飛, 孫海. 碳酸鹽岩儲層參數對微觀滲流的影響研究[J]. 地球科學-中國地質大學學報,2013,(05):1047-1052. (EI檢索)
103. 樊冬豔,姚軍,金強,孫海,曾慧. 考慮儲層改造體積頁岩氣藏複合模型[J]. 東北石油大學學報,2015,02:77-84+9-10.
104. 劉文超,姚軍,陳掌星,劉曰武,孫海. 低滲透多孔介質滲流動邊界模型的解析與數值解[J]. 力學學報,2015,04:605-612. (EI檢索)
105. 楊永飛,王晨晨,姚軍,胡蓉蓉,孫海,趙建林. 頁岩基質微觀孔隙結構分析新方法[J]. 地球科學,2016,06:1067-1073. (EI檢索)


專利
1. 孫海,段煉,張磊,姚軍,劉磊,楊永飛,宋文輝. 基於孔徑分布的頁岩多相數字岩心的表麵提取方法[P]. 山東省:CN113281237A,2021-08-20.
2. 孫海,段煉,張磊,姚軍,劉磊,楊永飛,宋文輝. 基於二維圖像的多礦物相數字岩心構建及孔隙類別區分方法[P]. 山東省:CN113281238A,2021-08-20.
3. 孫海,亓春慧,樊冬豔,姚軍,嚴俠,張磊,楊永飛,劉磊. 一種頁岩油藏全尺度升級方法[P]. 山東省:CN113250685A,2021-08-13.
4. 孫海,姚軍,樊偉鵬,樊冬豔,張磊,楊永飛,張凱,朱光普,亓春慧. 一種高含水期油藏多尺度數值模擬方法[P]. 山東省:CN113255247A,2021-08-13.
5. 朱光普,姚軍,鍾俊傑,張磊,孫海,張凱,楊永飛,嚴俠. 基於臨界毛細數判別動態接觸角可用性圖版的構建方法[P]. 山東省:CN113065265A,2021-07-02.
6. 朱光普,姚軍,鍾俊傑,張磊,孫海,張凱,楊永飛,嚴俠. 一種基於微觀流動模擬獲取高含水區塊水驅曲線方法[P]. 山東省:CN113027399A,2021-06-25.
7. 朱光普,姚軍,鍾俊傑,張磊,孫海,張凱,楊永飛,嚴俠. 一種適用於頁岩氣藏熱力開采的流動模擬方法[P]. 山東省:CN112966422A,2021-06-15.
8. 嚴俠,姚軍,黃朝琴,劉禮軍,王子傑,孫海. 一種基於均勻化理論的頁岩基質流固耦合尺度升級方法[P]. 山東省:CN111597721B,2021-06-01.
9. 嚴俠,姚軍,黃朝琴,劉禮軍,王子傑,孫海. 一種頁岩氣藏流固耦合多尺度數值模擬方法[P]. 山東省:CN111553108B,2021-05-07.
10. 張磊,徐超,李博涵,楊守磊,蔡詩妤,董田田,盧恩興,郭曜豪,孫海,楊永飛,姚軍. 基於CT掃描技術和Gabriel圖的非均質多孔介質模型構建方法[P]. 山東省:CN112364504A,2021-02-12.
11. 馬敏,李愛芬,姚軍,付帥師,張磊,孫海. 一種測試原油瀝青質析出壓力的實驗裝置與實驗方法[P]. 山東省:CN112198091A,2021-01-08.
12. 楊永飛,王煜舒,於曉聰,姚軍,王珂,李英文,張凱,孫海,張磊,宋文輝. 一種確定天然氣水合物儲層顆粒運移程度的方法及裝置[P]. 山東省:CN112069620A,2020-12-11.
13. 楊永飛,王煜舒,於曉聰,姚軍,王珂,李英文,王子傑,張凱,孫海,張磊,宋文輝. 低滲油藏注水過程中顆粒運移影響的分析方法及裝置[P]. 山東省:CN112052634A,2020-12-08.
14. 楊永飛,王煜舒,於曉聰,姚軍,王珂,李英文,王子傑,張凱,孫海,張磊,宋文輝. 一種表征水合物藏滲流能力的方法及裝置[P]. 山東省:CN112014293A,2020-12-01.
15. 馬敏,李愛芬,姚軍,付帥師,張磊,孫海. 一種原油瀝青質引起的岩石滲透率損害定量評價裝置及其應用[P]. 山東省:CN112014294A,2020-12-01.
16. 楊永飛,楊海元,姚軍,錢其豪,李勇,張磊,張凱,孫海,孫致學,蔡建超. 一種基於多相數字岩心模擬岩石裂紋擴展的方法及係統[P]. 山東省:CN111767631A,2020-10-13.
17. 楊永飛,呂倩菲,姚軍,陶柳,張磊,孫海,張凱,宋文輝. 一種三維可視化往複式循環驅替係統[P]. 山東省:CN111735831A,2020-10-02.
18. 楊永飛,劉夫貴,姚軍,汪遠博,宋懷森,徐伯釗,張凱,張磊,孫海,宋文輝. 一種構建數字岩心的方法及係統[P]. 山東省:CN111402266A,2020-07-10.
19. 姚軍,宋文輝,王東英,孫海,郭曜豪,楊謙洪. 一種考慮多重因素影響的頁岩氣表觀滲透率計算方法[P]. 山東省:CN110210460A,2019-09-06.
20. 張磊,郭曜豪,姚軍,孫海,楊永飛,王鑫,楊謙洪. 一種基於Voronoi圖的二維多孔介質模型構建方法[P]. 山東省:CN109977469A,2019-07-05.
21. 劉磊,姚軍,孫海,張磊,楊永飛,朱星宇. 一種基於二維圖像和多點統計學的數字岩心重建方法[P]. 山東:CN108876901A,2018-11-23.
22. 景文龍,張磊,姚軍,楊永飛,孫海. 一種基於岩心掃描圖像分塊數值模擬的滲透率預測方法[P]. 山東:CN108763711A,2018-11-06.
23. 姚軍,郭曜豪,張磊,孫海,楊永飛,楊謙洪. 一種基於孔隙網絡模型的致密油流動模擬及滲透率預測方法[P]. 山東:CN108729908A,2018-11-02.
24. 樊冬豔,孫海,姚軍,孫致學,張凱. 一種深層地熱氣水兩相井底測量裝置及數據處理方法[P]. 山東:CN107829722A,2018-03-23.
25. 孫海,樊冬豔,姚軍,張林,張磊,孫致學,楊永飛. 一種監測地熱儲層溫度和裂縫分布的方法和裝置[P]. 山東:CN106707365A,2017-05-24.
26. 楊永飛,劉誌輝,張文傑,蘇雲河,萬玉金,張林,姚軍,張磊,孫海,宋文輝,趙建林,安森友,劉鵬飛,劉磊,朱星宇. 一種基於岩石分類和多尺度數字岩心的碳酸鹽岩孔隙結構表征方法[P]. 山東:CN106324002A,2017-01-11.
27. 楊永飛,張文傑,姚軍,張建光,孫致學,樊冬豔,安森友,孫海,張磊,張琦,趙建林,劉磊. 一種頁岩基質儲層孔隙空間表征方法[P]. 山東:CN106127816A,2016-11-16.
28. 張磊,劉磊,姚軍,孫海,楊永飛,趙建林,安森友,張琦. 一種基於侵蝕-膨脹算法的數字岩心兩相流模擬結果定量表征方法及其應用[P]. 山東:CN105891083A,2016-08-24.
29. 孫致學,姚軍,李彥超,孫海,楊永飛,樊冬豔,聶海峰,劉繼芹,曾青冬,蔡明玉,黃勇,徐楊,孫強,張明明,呂抒桓,董雲振,劉熙遠. 一種針對頁岩的壓裂造縫的技術和方法[P]. 山東:CN105822275A,2016-08-03.
30. 樊冬豔,孫海,孫致學,曾慧. 一種協同開發天然氣、水溶氣和天然氣水合物的係統及方法[P]. 山東:CN105422055A,2016-03-23.
31. 楊永飛,安森友,姚軍,孫海,張磊,張琦,趙建林,楊謙洪,宋文輝,劉誌輝,張文傑,羅嘉慧. 一種基於孔隙網絡模型的三相相對滲透率的計算方法[P]. 山東:CN105021506A,2015-11-04.
32. 楊永飛,姚軍,張琦,田同輝,徐耀東,明玉坤,高瑩,魏微,趙建林,孫海,張磊,宋文輝,安森友,杜玉山,王軍,晁靜. 一種基於CT數字岩心的微觀驅替實驗係統及微觀驅替實驗方法[P]. 山東:CN104819990A,2015-08-05.
33. 楊永飛,姚軍,魏微,高瑩,張琦,趙建林,孫海,宋文輝,安森友. 一種低滲透儲層原油邊界層的模擬方法[P]. 山東:CN104331579A,2015-02-04.
34. 楊永飛,姚軍,高瑩,魏微,張琦,趙建林,孫海,宋文輝,安森友. 基於Zeiss MCT-400CT掃描的岩心夾持器及其應用[P]. 山東:CN104316548A,2015-01-28.
35. 姚軍,卜亞輝,劉均榮,於偉強,孫海,樊冬豔,王偉. 基於流動電位的儲層參數測量係統及測量方法[P]. 山東:CN103397879A,2013-11-20.

學術交流
1、2012年4月,頁岩油資源與勘探開發技術國際研討會,《Transport Mechanisms and Numerical Simulation of Shale Gas Reservoirs》Poster,江蘇,無錫;
2、2012年8月,2012年全國博士論壇(多孔介質流動),《頁岩氣藏運移機理及數值模擬研究》分會報告,山東,青島;
3、2012年11月,第七屆全國流體力學學術會議,《致密多孔頁岩氣體運移機製研究》分會報告,廣西,桂林;
4、2013年8月,第十二屆全國滲流力學大會,《基於多孔介質物性參數的氣體運移模式判定方法》,山東,青島;
5、 2014年3月1日-3月7日,沙特KAUST大學(King Abdullah University of Science and Technology,阿卜杜拉國王科技大學)參加數值多孔介質年會,做題為《Multiscale Numerical Simulation of shale gas reservoirs》的Poster;
6、2015年5月18-5月21日,意大利帕多瓦參加第七屆世界滲流力學大會(7th International Conference on Porous Media),做題目《A new apparent permeability calculated method of shale gas and tight gas reservoirs based on digital rock》的報告;
7、2015年5月24-5月27日,參加第七屆國際流體力學大會《The 7th International Conference on Fluid Mechanics》,做題為《A new apparent permeability calculated method of shale gas reservoirs based on digital rock》的報告;
8、2015年7月10日-12日,參加第十三屆全國滲流力學大會,做題為《考慮應力敏感和多重耦合運移機製的頁岩氣藏數值模擬》的報告;
9、2015年8月1日-8月6日,沙特法赫德國王石油礦產大學(KFUPM)學術訪問,做題為《Multi-scale Flow Simulation Theory and Method in Shale Gas Reservoirs》的報告。
10、2016年5月9日-5月12,美國辛辛那提第8屆Interpore《Upscaling of gas transport in shale matrix based on homogenization theory》;
11、2017年8月24-8月25日,第十四屆全國滲流力學大會《頁岩氣藏納微尺度流動模擬及尺度升級》特邀報告;
12、2018年5月14-5月17日,美國新奧爾良第10屆InterPore《Numerical simulation of proppants transport and placement in fracture》.
13、2019年5月4日-2019年5月11日,西班牙瓦倫西亞第11屆InterPore《An upscaled transport model of shale gas considering multiple mechanisms and heterogeneity based on homogenization theory》
14、2020年9月,線上會議第12屆InterPore MS 6-B Interfacial phenomena in multiphase systems 召集人.



個人風采
孫海,男,1984年10月生,山東臨朐人,博士,教授,博士生導師,國家優青獲得者。主要從事非常規油氣藏滲流機理、多孔介質中微觀流動模擬及多尺度流動模擬等方麵的科研工作。針對非常規油氣藏強非均質性、多尺度空間、多流動模式特征,形成了從分子尺度(納米) -孔隙尺度(微米) -岩心尺度(厘米) -宏觀尺度(米)的多尺度、多場耦合、多模態流動的非常規油氣藏滲流理論及數值模擬方法, 突破了傳統油氣滲流理論的局限,揭示了非常規油氣藏的滲流機理,為其高效開發奠定了理論基礎,近5年來在《International Journal of Heat and Mass Transfer》、《Fuel》、《International Journal of Greenhouse Gas Control》、《中國科學: 物理學 力學 天文學》、《石油學報》等國內外權威期刊發表論文100餘篇(其中SCI收錄70篇,EI收錄59篇,ESI高被引論文6篇、領跑者5000中國精品科技期刊頂尖學術論文1篇),成果受到中科院院士郭尚平、陶文銓、何雅玲、中國工程院院士李根生、德州農工大學I. Y. Akkutlu教授及德州大學奧斯汀分校Masa Prodanovic教授等國內外專家的正麵引用和高度評價,目前總引用次數2600餘次,H因子30;多次在國際滲流力學大會(Interpore)、國際流體力學大會、全國滲流力學大會及全國流體力學大會等國內外學術會議宣講研究成果,還擔任《Fuel》、《Energy & Fuel》、《Environmental Earth Sciences》、《Transport in Porous Media》、《Journal of Petroleum Science and Engineering》、《Petroleum Science》等本行業權威期刊的審稿人。獲教育部自然科學一等獎1項(排名第二)、省部級科技進步二等獎3項(排名1、3、3),2015年度山東省優秀博士學位論文,入選2016年度中國博士後科學基金資助者選介(全國100人)。