姓名:彭巖
職稱:副教授
職務(wù):工程力學(xué)系副主任/支部副書記
教育與工作經(jīng)歷:
2006~2010 中國礦業(yè)大學(xué)工程力學(xué)專業(yè),學(xué)士
2010~2013 中國礦業(yè)大學(xué)工程力學(xué)專業(yè),,碩士
2011~2013 西澳大利亞大學(xué)石油與天然氣工程專業(yè),,聯(lián)合培養(yǎng)
2013~2016 西澳大利亞大學(xué)石油與天然氣工程專業(yè),博士
2016~ 中國石油大學(xué)(北京)講師/副教授
電子郵箱:[email protected]
聯(lián)系電話:010-89739816
所在系所:工程力學(xué)系
研究方向:石油工程巖石力學(xué),,儲層改造機理
教學(xué)情況:
主講理論力學(xué),、材料力學(xué)、石油工程巖石力學(xué)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(huán)水力壓裂的泵注頻率選取方法及裝置(發(fā)明專利,,已授權(quán))
[20]彭巖; 徐向東; 侯亞南; 張廣清; 李世遠(yuǎn); 馬智驍; 王一博.模擬壓裂液注入的井筒-裂縫實驗系統(tǒng)以及實驗方法(發(fā)明專利,,已授權(quán))
[21]彭巖; 黃家曦; 諶立吉; 陳掌星; 張廣清.一種用于形成人工復(fù)雜縫網(wǎng)的裝置、系統(tǒng)以及方法(發(fā)明專利,,已授權(quán))
科研項目
[1] 致密儲層縫內(nèi)變載荷驅(qū)動裂縫疲勞擴展機理研究,,國家自然科學(xué)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(shù)值模擬與注氣控水技術(shù),,國家自然科學(xué)基金聯(lián)合基金項目,,2020-2023(參與)
[3]壓裂液滲吸引發(fā)深層頁巖儲層的微觀損傷及重復(fù)壓裂縫轉(zhuǎn)向的流固耦合機理,北京自然科學(xué)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(guī)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(shù)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(qū)巖石力學(xué)實驗和地質(zhì)力學(xué)模型更新測試,,中石油勘探開發(fā)研究院,2022(主持)
[8]煤巖力學(xué)性質(zhì)與熱物理性質(zhì)測試,中石油勘探開發(fā)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(xué)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(guān)鍵參數(shù)優(yōu)化研究,,新疆油田,,2020-2021(主持)
科研教學(xué)獎勵:
[1]2019年獲中國石油大學(xué)(北京)教學(xué)成果獎二等獎
[2]2016年獲中國石油大學(xué)(北京)青年拔尖人才計劃支持
[3]2015年度國家優(yōu)秀自費留學(xué)生,國家留學(xué)基金委
社會與學(xué)術(shù)兼職:
[1] 中國巖石力學(xué)與工程學(xué)會會員,,美國巖石力學(xué)學(xué)會會員
[2] 《東北石油大學(xué)學(xué)報》青年編委
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