姓名:彭巖
職稱:副教授
職務:工程力學系副主任/支部副書記
教育與工作經歷:
2006~2010 中國礦業大學工程力學專業����,學士
2010~2013 中國礦業大學工程力學專業��,碩士
2011~2013 西澳大利亞大學石油與天然氣工程專業���,聯合培養
2013~2016 西澳大利亞大學石油與天然氣工程專業�����,博士
2016~ 中國石油大學(北京)講師/副教授
電子郵箱:yan.peng@cup.edu.cn
聯系電話:010-89739816
所在系所:工程力學系
研究方向:石油工程巖石力學����,儲層改造機理
教學情況:
主講理論力學�����、材料力學���、石油工程巖石力學等
代表性論文著作:
[1]Qu H, Peng Y, Pan Z, et al. Numerical study on the impact of water-rock interactions on the propagation of water-flooding induced fracture[J]. Frontiers in Earth Science, 2023, 11: 1129913.
[2] Hou Y, Peng Y, Liu Y, et al. Influence of Increasing Mean Stress on Fatigue Properties of Shale during Pulsating Hydraulic Fracturing[J]. Energy & Fuels, 2022, 36(23): 14174-14186.
[3]Wang W, Peng Y, Chen Z, et al. Synergistic Effects of Weak Alkaline–Surfactant–Polymer and SiO2 Nanoparticles Flooding on Enhanced Heavy Oil Recovery[J]. Energy & Fuels, 2022, 36(14): 7402-7413.
[4]Hou Y, Peng Y, Chen Z, et al. Investigating heterogeneous distribution of fluid pressure in hydraulic fractures during pulsating hydraulic fracturing[J]. Journal of Petroleum Science and Engineering, 2022, 209: 109823.
[5] Peng, Y. , Liu, J. , Zhang, G. , Pan, Z. , & Hou, Y. . (2021). A pore geometry-based permeability model for tight rocks and new sight of impact of stress on permeability. Journal of Natural Gas Science and Engineering, 91(9), 103958.
[6] Hou, Y. , Peng, Y. , Chen, Z. , Liu, Y. , & Tian, W. . (2021). Investigation on the controlling factors of pressure wave propagation behavior induced by pulsating hydraulic fracturing. SPE Journal, 1-20.
[7] Qu H., Peng Y., , Zp, D. , Zcc, E. , Fz, B. , & Ke, Z. C. . (2019). A fully coupled simulation model for water spontaneous imbibition into brittle shale. Journal of Natural Gas Science and Engineering, 66, 293-305.
[8] HongYan Q U, Yan PENG, JiShan LIU, et al. Impact of gas adsorption on apparent permeability of shale fracture and shale gas recovery rate[J]. Scientia Sinica Technologica, 2018, 48(8): 891-900.
[9] Peng, Y. , Liu, J. , Pan, Z. , Qu, H. , & Connell, L. . (2018). Evolution of shale apparent permeability under variable boundary conditions. Fuel, 215(MAR.1), 46-56.
[10]Zhu W, Liu L, Liu J, et al. Impact of gas adsorption-induced coal damage on the evolution of coal permeability[J]. International Journal of Rock Mechanics and Mining Sciences, 2018, 101: 89-97.
[11]Zhao Y, Gong S, Hao X, Peng Yan. Effects of loading rate and bedding on the dynamic fracture toughness of coal: laboratory experiments[J]. Engineering Fracture Mechanics, 2017, 178: 375-391.
[12] Peng, Y. , Liu, J. , Pan, Z. , Connell, L. D. , Chen, Z. , & Qu, H. . (2017). Impact of coal matrix strains on the evolution of permeability. Fuel, 189(feb.1), 270-283.
[13]Qu H, Pan Z, Peng Y, et al. Controls on matrix permeability of shale samples from Longmaxi and Niutitang formations, China[J]. Journal of Natural Gas Science and Engineering, 2016, 33: 599-610.
[14] Peng, Y. , Liu, J. , Pan, Z. , & Connell, L. D. . (2015). A sequential model of shale gas transport under the influence of fully coupled multiple processes. Journal of Natural Gas Science & Engineering, 27(part_P2), 808-821.
[15]Wang J G, Ju Y, Gao F, Peng Yan. Effect of CO2 sorption-induced anisotropic swelling on caprock sealing efficiency[J]. Journal of Cleaner Production, 2015, 103: 685-695.
[16] Peng, Y. , Liu, J. , Wei, M. , Pan, Z. , & Connell, L. D. . (2014). Why coal permeability changes under free swellings: new insights. International Journal of Coal Geology, 133, 35-46.
[17] Peng, Y., Liu, J. , Zhu, W. , Pan, Z. , & Connell, L. . (2014). Benchmark assessment of coal permeability models on the accuracy of permeability prediction. Fuel, 132(sep.15), 194-203.
[18]Wang J G, Peng Y. Numerical modeling for the combined effects of two-phase flow, deformation, gas diffusion and CO2 sorption on caprock sealing efficiency[J]. Journal of Geochemical Exploration, 2014, 144: 154-167.
[19] 侯亞南; 彭巖; 陳掌星; 劉一杉; 馬智驍; 王一博; 張柯.一種脈沖循環水力壓裂的泵注頻率選取方法及裝置(發明專利���,已授權)
[20]彭巖; 徐向東; 侯亞南; 張廣清; 李世遠; 馬智驍; 王一博.模擬壓裂液注入的井筒-裂縫實驗系統以及實驗方法(發明專利���,已授權)
[21]彭巖; 黃家曦; 諶立吉; 陳掌星; 張廣清.一種用于形成人工復雜縫網的裝置��、系統以及方法(發明專利��,已授權)
科研項目
[1] 致密儲層縫內變載荷驅動裂縫疲勞擴展機理研究�,國家自然科學基金青年基金����,2020-2023(主持)
[2] 深層碳酸鹽巖酸性氣藏注CO2控水方法--深層碳酸鹽巖酸性氣藏數值模擬與注氣控水技術�,國家自然科學基金聯合基金項目����,2020-2023(參與)
[3]壓裂液滲吸引發深層頁巖儲層的微觀損傷及重復壓裂縫轉向的流固耦合機理�,北京自然科學基金青年基金��,2018-2020(主持)
[4]氣體吸附控制頁巖裂縫滲透率變化的規律研究��,校級拔尖人才項目��,2017-2019(主持)
[5]致密礫巖油藏CO2壓裂工藝適用性及數值模擬研究��,新疆油田����,2023-2024(主持)
[6]微粒徑支撐劑正序列梯次鋪置方法研究�,中石油工程院�,2023(主持)
[7]吉木薩爾吉305井區巖石力學實驗和地質力學模型更新測試�,中石油勘探開發研究院����,2022(主持)
[8]煤巖力學性質與熱物理性質測試,中石油勘探開發研究院���,2021-2022(主持)
[9]盆地東部天然氣勘探石千峰及本溪等氣藏儲層力 學特征與液體傷害實驗研究���,長慶油田�����,2021(主持)
[10]提高深層探井壓裂效果關鍵參數優化研究�,新疆油田��,2020-2021(主持)
科研教學獎勵:
[1]2019年獲中國石油大學(北京)教學成果獎二等獎
[2]2016年獲中國石油大學(北京)青年拔尖人才計劃支持
[3]2015年度國家優秀自費留學生���,國家留學基金委
社會與學術兼職:
[1] 中國巖石力學與工程學會會員���,美國巖石力學學會會員
[2] 《東北石油大學學報》青年編委
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