姓名: 曹仁義
職稱(chēng): 教授,博士生導(dǎo)師
教育與工作經(jīng)歷:
2000-2004 中國(guó)石油大學(xué)(華東) 本科
2004-2009 中國(guó)石油大學(xué)(北京) 博士研究生
2009-2010 University of Colorado at Boulder 博士后
2009-現(xiàn)在 中國(guó)石油大學(xué)(北京)教師
個(gè)人主頁(yè):
電子郵箱: [email protected]; [email protected]
聯(lián)系電話:010-89733218
所在系所:油氣田開(kāi)發(fā)系
研究方向:油氣滲流理論與應(yīng)用、油氣田開(kāi)發(fā)理論與系統(tǒng)工程。主要從事非常規(guī)致密和頁(yè)巖油氣藏滲流、特高含水期油藏開(kāi)發(fā)技術(shù)研究。
教學(xué)情況:《滲流力學(xué)》、《高等滲流力學(xué)》、《油層物理》、《高等油層物理》
主要論文著作(部分):
[1] 曹仁義,程林松,郝炳英,許家峰,姚大偉.粘彈性聚合物溶液孔喉模型流變動(dòng)力分析[J].高分子材料科學(xué)與工程,2008(03):15-18.
[2] Cao R, Cheng L, Zhu L. Coupled permeability model of ASP solution and porous media[C]//2009 International Forum on Porous Flow and Applications, April. 2009: 24-26.
[3] Cao R, Cheng L, Zee Ma Y. Model for rheological behavior of crude oil and alkali-surfactant-polymer emulsion[J]. The Open Fuels & Energy Science Journal, 2014, 7(1).
[4] Cao R, Zee Ma Y, Gomez E. Geostatistical applications in petroleum reservoir modelling[J]. Journal of the Southern African Institute of Mining and Metallurgy, 2014, 114(8): 625-631.
[5] Cao R, Cheng L, Lian P. Flow behavior of viscoelastic polymer solution in porous media[J]. Journal of Dispersion Science and Technology, 2015, 36(1): 41-50.
[6] 曹仁義,陽(yáng)小平,范晶,徐俊杰,江任開(kāi),陳嶺.儲(chǔ)氣庫(kù)注采井壓力全過(guò)程評(píng)價(jià)方法[J].油氣儲(chǔ)運(yùn),2014,33(12):1310-1316.
[7] Cao R, Yang H, Sun W, et al. A new laboratory study on alternate injection of high strength foam and ultra-low interfacial tension foam to enhance oil recovery[J]. Journal of Petroleum Science and Engineering, 2015, 125: 75-89.
[8] 曹仁義,周焱斌,熊琪,閻逸群.低滲透油藏平面波及系數(shù)評(píng)價(jià)及改善潛力[J].油氣地質(zhì)與采收率,2015,22(01):74-77+83.
[9] Cao R, Wang Y, Cheng L, et al. A new model for determining the effective permeability of tight formation[J]. Transport in Porous Media, 2016, 112(1): 21-37.
[10] Cao R Y, Chen L , Ma Y Z , et al. Characteristics of unsteady flow in porous media while considering threshold pressure gradient with Green's function[J]. Journal of Central South University, 2016(1):201-208.
[11] Cao R, Sun C, Ma Y Z. Modeling wettability variation during long-term water flooding[J]. Journal of Chemistry, 2015, 7(7).
[12] 曹仁義,安娜,田虓豐,王陽(yáng),徐中一.致密儲(chǔ)層微納喉道微尺度效應(yīng)流動(dòng)模擬[J].中國(guó)科技論文,2016,11(11):1254-1258.
[13] Cao R, Ye L, Lei Q, et al. Gas-water flow behavior in water-bearing tight gas reservoirs[J]. Geofluids, 2017.
[14] 張偉,曹仁義,羅東紅,孫常偉,李偉.南海珠江口盆地海相砂巖油藏高倍數(shù)水驅(qū)驅(qū)替特征[J].油氣地質(zhì)與采收率,2018,25(02):64-71.
[15] 關(guān)云,曹仁義,徐鋒,呂文賀,晉劍利.厚油層水驅(qū)開(kāi)發(fā)效果及其影響因素分析[J].斷塊油氣田,2018,25(06):766-770.
[16] Rao X., Cheng L., Cao R., et al., “A novel green element method by mixing the idea of the finite difference method”, Engineering Analysis with Boundary Elements. Vol.95(2018), pp. 238-247.
[17] Chen M., Cheng L., Cao R., et al., “A Study to Investigate Fluid-Solid Interaction Effects on Fluid Flow in Micro Scales”, Energies. Vol.11(2018), 2197.
[18] Cao R., Fang S., Jia P., et al., “An efficient embedded discrete-fracture model for 2D anisotropic reservoir simulation”, Journal of Petroleum Science and Engineering. Vol.174(2019), pp.115-130.
[19] Cao R., Xu Z., Cheng L., et al. “Study of Single Phase Mass Transfer between Matrix and Fracture in Tight Oil Reservoirs”, Geofluids. Vol.2019(2019), 1038412.
[20] Dai Z., Jiang J., Li H., Cao R., Xin J., Luo D., “Wettability experiment of core and mico-mechanism during high-multiple water flooding in heavy oil reservoir”, Science Technology and Engineering, Vol.19, pp. 175-163.
[21] Rao X., Cheng L., Cao R., et al., “A modified embedded discrete fracture model to study the water blockage effect on water huff-n-puff process of tight oil reservoirs”, Journal of Petroleum Science and Engineering. Vol.181(2019), 106232.
[22] Rao X., Cheng L., Cao R., et al., “An efficient three-dimensional embedded discrete fracture model for production simulation of multi-stage fractured horizontal well”, Engineering Analysis with Boundary Elements. Vol.106(2019), pp.473-492.
[23] Rao X., Cheng L., Cao R., et al., “A mimetic Green element method”, Engineering Analysis with Boundary Elements. Vol.99(2019), pp.206-221.
[24] Wang, D., Cheng L., Cao R., et al., “The effects of the boundary layer and fracture networks on the water huff-n-puff process of tight oil reservoirs”, Journal of Petroleum Science and Engineering. Vol.176(2019), pp.466-480.
[25] Cheng L., Wang, D., Cao, R., & Xia, R., “The influence of hydraulic fractures on oil recovery by water flooding processes in tight oil reservoirs: an experimental and numerical approach”, Journal of Petroleum Science and Engineering. Vol.185(2019), 106572.
[26] Cao R., Wu Z., Liang, X., et al., “Characteristics of imbibition in tight oil reservoirs from the perspective of physical experiments and theory”, Energy Science & Engineering. Vol.8(2020), pp.3531-3543.
[27] Rao X., Cheng L., Cao R., et al., “A modified projection-based embedded discrete fracture model (pEDFM) for practical and accurate numerical simulation of fractured reservoir”, Journal of Petroleum Science and Engineering. Vol.187(2020), 106852.
[28] Chen M., Cheng L., Cao R., Lyu C., & Rao X., “Carbon dioxide transport in radial miscible flooding in consideration of rate-controlled adsorption”, Arabian Journal of Geosciences. Vol.13(2020).
[29] 曹仁義,馬明,郭西峰,楊青,湯繼業(yè),王洪君.基于流管模型的低滲透油藏水驅(qū)平面波及系數(shù)計(jì)算方法[J].油氣地質(zhì)與采收率,2021,28(02):100-108.
[30] 曹仁義,黃濤,程林松,高占武,賈志豪.水驅(qū)油藏中原油極性物質(zhì)對(duì)吸附和潤(rùn)濕性影響的分子模擬研究[J/OL].計(jì)算物理:1-9[2021-09-04].
[31] Shi J., Cheng L., Cao R., Jia Z., & Liu G., “Phase-field simulation of imbibition for the matrix-fracture of tight oil reservoirs considering temperature change”, Water. Vol.13(2021), 1004.
[32] Cao R., Dai Z., Wang Z., Wang y., Jiang J., Li H., Jia Z., “Displacement behavior and mechanism of long-term water flooding in sandstone oil reservoirs”, Journal of Central South University. Vol.28(2021), pp.834-847.
[33] 王志凱,程林松,曹仁義,王進(jìn),賈品,王選茹.三維壓裂縫網(wǎng)不穩(wěn)定壓力半解析求解方法[J].力學(xué)學(xué)報(bào),2021,53(08):2246-2256.
[34] 曹仁義,程林松,杜旭林,時(shí)俊杰,楊晨旭.致密油藏滲流規(guī)律及數(shù)學(xué)模型研究進(jìn)展.西南石油大學(xué)學(xué)報(bào)(自然科學(xué)版):1-25[2021-09-16].
教材和專(zhuān)著:
[1] 程林松, 曹仁義,賈品. 高等滲流力學(xué)(第二版).石油工業(yè)出版社,2020年.
[2] 程林松,賈品,曹仁義. 致密油藏體積壓裂產(chǎn)能評(píng)價(jià)方法. 科學(xué)出版社,2020年.
科研獎(jiǎng)勵(lì):
[1] 2009年,特低滲透油藏非線性滲流與開(kāi)發(fā)技術(shù),教育部二等獎(jiǎng)
[2] 2012年,稠油油藏開(kāi)發(fā)評(píng)價(jià)技術(shù)及應(yīng)用,石油石化協(xié)會(huì)二等獎(jiǎng)
[3] 2014年,邊水氣藏型儲(chǔ)氣庫(kù)群提高調(diào)峰能力關(guān)鍵技術(shù)及應(yīng)用,石油石化協(xié)會(huì)三等獎(jiǎng)
[4] 2014年,大張坨/板中北/板中南氣庫(kù)及庫(kù)間水體構(gòu)造及六座儲(chǔ)氣庫(kù)地層運(yùn)行壓力評(píng)價(jià)研究,中石油集團(tuán)公司三等獎(jiǎng)
[5] 2015年,超稠油多介質(zhì)輔助重力泄油滲流機(jī)理及開(kāi)發(fā)關(guān)鍵技術(shù),石油石化協(xié)會(huì)三等獎(jiǎng)
[6] 2017年,稠油多介質(zhì)熱力開(kāi)采新理論及應(yīng)用,教育部二等獎(jiǎng)
[7] 2019年,致密儲(chǔ)層多尺度滲流機(jī)理與高精度仿真模擬技術(shù),石油石化協(xié)會(huì)二等獎(jiǎng)
教學(xué)獎(jiǎng)勵(lì):
[1] 2011年,滲流力學(xué)重點(diǎn)課程建設(shè),中國(guó)石油大學(xué)(北京)第七屆優(yōu)秀教學(xué)成果一等獎(jiǎng)
[2] 2012年,高等滲流力學(xué)課程體系建設(shè),中國(guó)石油大學(xué)(北京)第八屆優(yōu)秀教學(xué)成果一等獎(jiǎng)
[3] 2017年,一貫制多目標(biāo)“滲流力學(xué)”課程體系和教學(xué)團(tuán)隊(duì)建設(shè),中國(guó)石油大學(xué)(北京)第十屆校級(jí)優(yōu)秀教學(xué)成果獎(jiǎng)二等獎(jiǎng)
[4] 2021年,非常規(guī)油氣開(kāi)發(fā)背景下CDIO-OBE理念的研究生滲流類(lèi)課程群建設(shè),中國(guó)石油大學(xué)(北京)教學(xué)成果獎(jiǎng)二等獎(jiǎng)
[5] 2020年,滲流力學(xué),國(guó)家級(jí)一流本科課程,國(guó)家級(jí),排名第3
[6] 指導(dǎo)中國(guó)石油工程設(shè)計(jì)大賽,獲全國(guó)一等獎(jiǎng)1項(xiàng)(2020年),全國(guó)二等獎(jiǎng)1項(xiàng)(2021年),全國(guó)三等獎(jiǎng)2項(xiàng)(2021年)
承擔(dān)項(xiàng)目:
[1] 國(guó)家自然科學(xué)基金,致密儲(chǔ)層流-固相互作用機(jī)制及非線性滲流模型,2017.01-2020.12
[2] 國(guó)家自然科學(xué)基金,多孔介質(zhì)中泡沫微觀運(yùn)移機(jī)理及數(shù)學(xué)模型,2014.01-2016.12
[3] 國(guó)家973項(xiàng)目專(zhuān)題,致密油多相多尺度流動(dòng)機(jī)理及滲流理論研究-致密油非線性滲流數(shù)學(xué)模型,2017.01-2019.08
[4] 國(guó)家科技重大專(zhuān)項(xiàng)-專(zhuān)題,超低滲油藏縫網(wǎng)壓裂水平井開(kāi)發(fā)特征研究,2017.01-2020.12
[5] 中石油戰(zhàn)略合作科技專(zhuān)項(xiàng)專(zhuān)題,地層能量評(píng)價(jià)與補(bǔ)充地層能量方式優(yōu)化,2020.01-2024.12
[6] 中石油長(zhǎng)慶油田項(xiàng)目,致密油水平井示范區(qū)滲流特征及數(shù)值模擬研究,2017年
[7] 中石油勘探開(kāi)發(fā)研究院項(xiàng)目,超低滲透油藏體積壓裂滲吸采油新技術(shù)研究,2018年
[8] 中海油天津分公司項(xiàng)目,埕北油田“雙高”階段剩余油定量表征及提高采收率研究,2019年
[9] 中石化勘探開(kāi)發(fā)研究院項(xiàng)目,巴西鹽下高含CO2碳酸鹽巖油藏相態(tài)研究及開(kāi)發(fā)模式,2020年
