宋兆杰
研究员,博导、硕导,国家级高层次青年人才,非常规油气科学技术研究院副院长
办公室:主楼A座A302
办公室电话:010-89739187
E-mail:songz@cup.edu.cn
个人简介
宋兆杰,男,博士,研究员,博导、硕导,国家“万人计划”青年拔尖人才,学校优秀青年学者和青年人才“本熹班”首期学员(导师:李根生院士),非常规油气科学技术研究院副院长。2014年获得中国地质大学(北京)油气田开发工程专业博士学位。2012-2014年于美国密苏里科技大学进行交流访问。主要研究方向包括:非常规油气相态与提高采收率、CO2驱油与地质封存(CCUS)、多孔介质多相流体流动规律等。主持国家级、省部级项目8项,其中国家自然科学基金项目3项、国家高端外国专家引进计划项目1项、国家重点研发计划专题1项;在Chemical Engineering Journal、Fuel、Journal of Petroleum Science and Engineering、Petroleum Science、石油勘探与开发和石油学报等高水平期刊及SPE IOR和URTeC等行业顶级会议共发表论文80余篇,其中以第1或通讯作者发表SCI/EI收录论文40篇(JCR一区17篇);获授权发明专利19件;荣获教育部科技进步一等奖等省部级科技奖励7项(两项排名第1)和孙越崎青年科技奖、中国石油和化学工业联合会青年科技突出贡献奖和全国绿色矿山突出贡献个人奖。现为石油工程教育部重点实验室副主任、北京能源与环境学会专家委员会副主任、国家领军期刊Petroleum Science副主编、Geofluids编委、《石油科学通报》执行编委等。
研究方向
[1] 非常规油气相态与提高采收率
[2] 二氧化碳驱油与地质封存(CCUS)
[3] 多孔介质多相流体流动规律
教育背景
2010.09-2014.07,中国地质大学(北京),博士研究生
2012.09-2014.04,美国密苏里科技大学,联合培养博士生
2007.09-2010.07,中国石油大学(北京),硕士研究生
2003.09-2007.07,中国石油大学(华东),大学本科
工作经历
2021.07-,中国石油大学(北京),研究员
2021.08-2024.07,中国石油大学(北京),学校优秀青年学者
2016.06-2021.07,中国石油大学(北京),副研究员
2015.08-2018.07,中国石油大学(北京),学校青年拔尖人才
2014.07-2016.06,中国石油大学(北京),助理研究员
荣获奖励
[1] 2020.12,中国石油和化工自动化行业科技进步一等奖(排名第1)
[2] 2022.12,中国石油和化学工业联合会科技进步二等奖(排名第1)
[3] 2023.09,孙越崎能源科学技术奖青年科技奖
[4] 2022.12,中国石油和化学工业联合会青年科技突出贡献奖
[5] 2023.04,中关村绿色矿山产业联盟绿色矿山突出贡献个人奖
[6] 2023.06,教育部高等学校科学研究优秀成果奖科技进步一等奖(排名第10)
[7] 2015.10,中国石油和化学工业联合会科技进步一等奖(排名第9)
[8] 2023.05,青岛市科技进步二等奖(排名第5)
[9] 2023.02,中国石油和化工自动化行业科技创新团队奖(排名第13)
[10] 2022.07,Petroleum Science期刊2021-2022年度优秀青年编委
[11] 2020.12,Petroleum Science期刊2020年度优秀青年编委
[12] 2014.10,领跑者5000——中国精品科技期刊顶尖学术论文(F5000)
[13] 2014.06,中国地质大学(北京)优秀博士学位论文
科研项目
[19] 2023.01-2024.12,页岩油藏复杂缝网注CO2液流控制提高采收率理论与技术研究(G2023122005L),国家高端外国专家引进计划项目,主持
[18] 2022.09-2025.03,古龙页岩油立体井网注CO2/烃类气提高采收率机理及参数优化研究(DQYT-2022-JS-761-02),黑龙江省“揭榜挂帅”科技攻关项目课题,主持
[17] 2021.01-2024.12,页岩油储层纳微米孔喉中油-CO2-水多元体系相行为与流动机制研究(52074319),国家自然科学基金面上项目,主持
[16] 2020.01-2024.12,页岩油储层改造与提采一体化机理与技术(ZLZX2020-01-08),中石油战略合作科技专项课题,主持
[15] 2020.01-2023.12,深层碳酸盐岩酸性气藏数值模拟与注气控水技术(U19B6003-02-05-02),国家自然科学基金联合基金项目,主持
[14] 2019.11-2021.11,不同类型岩石孔隙结构表征方法研究(33550000-19-ZC0607-0019),中国石化石油勘探开发研究院技术服务项目,主持
[13] 2018.12-2019.10,巴西Libra碳酸盐岩油藏富CO2混相驱气窜规律研究(RIPED-2018-JS-688),中国石油勘探开发研究院技术服务项目,主持
[12] 2018.05-2021.04,低渗透油藏CO2驱油与封存协同方案设计及跟踪评价研究(2018YFB060550501),国家重点研发计划专题,主持
[11] 2016.01-2018.12,缝洞型碳酸盐岩油藏多相流体流动规律与剩余油形成机理研究(51504268),国家自然科学基金青年科学基金,主持
[10] 2015.10-2017.09,压裂液中减阻剂与致密砂岩的相互作用及其对油水渗透率的影响(2015D-5006-0209),中国石油科技创新基金,主持
[9] 2015.08-2018.07,缝洞型碳酸盐岩油藏提高采收率技术研究(2462014YJRC053),中国石油大学(北京)拔尖人才科研启动基金,主持
[8] 2015.01-2017.12,缝洞型碳酸盐岩油藏注水窜逸规律研究(2462015YQ1105),中国石油大学(北京)优秀青年教师研究项目,主持
[7] 2017.01-2020.12,低渗-致密油藏高效提高采收率新技术(2017ZX05009-004),国家科技重大专项课题,科研骨干
[6] 2016.01-2020.12,缝洞型油藏泡沫辅助气驱提高采收率技术研究(2016ZX05014-004-004),国家科技重大专项专题,技术首席
[5] 2016.07-2017.06,长庆油田CO2驱气窜规律分析与工艺对策研究(16CY2-FW-003),中国石油长庆油田技术服务项目,科研骨干
[4] 2014.07-2016.09,CO2埋存与提高采收率评价研究(2012BAC26B02),国家科技支撑计划项目,科研骨干
[3] 2014.07-2015.01,扶余油田优势通道微观形态及形成机理研究(JS13-W-14-JZ-26-47),中国石油吉林油田技术服务项目,科研骨干
[2] 2013.01-2014.04,Effect of Polymer/Polymer Gel on Disproportionate Permeability Reduction to Gas and Water for Tight Gas,美国化学会石油研究基金,科研骨干
[1] 2010.09-2014.07,CO2驱油与埋存潜力评价及战略规划(2011ZX05016-006),国家科技重大专项课题,科研骨干
代表性论文(第一作者/通讯作者)
期刊论文
[37] 大庆古龙页岩油-CO2高压相态及传质规律研究,石油学报,2023.
[36] Similarity-based laboratory study of CO2 huff-n-puff in tight conglomerate cores, Petroleum Science, 2023.
[35] 吉木萨尔页岩油二氧化碳吞吐提高采收率技术研究,特种油气藏,2023.
[34] Adsorption behavior of n-hexane and its mixtures with CO2, CH4, H2O and SDBS in hydrophobic silica nanopores, Fuel, 2022.
[33] Pore Scale Performance Evaluation and Impact Factors in Nitrogen Huff-n-Puff EOR for Tight Oil, Petroleum Science, 2022.
[32] N2 and CO2 Huff-n-Puff for Enhanced Tight Oil Recovery: An Experimental Study Using Nuclear Magnetic Resonance, Energy & Fuels, 2022.
[31] Phase Behavior of CO2-CH4-Water Mixtures in Shale Nanopores Considering Fluid Adsorption and Capillary Pressure, Industrial & Engineering Chemistry Research, 2022.
[30] Effect of confinement on the three-phase equilibrium of water-oil-CO2 mixtures in nanopores, Petroleum Science, 2022.
[29] The viscosifying behavior of W/O emulsion and its underlying mechanisms: Considering the interfacial adsorption of heavy components, Colloids and Surfaces A, 2022.
[28] Water-based nanofluid-alternating-CO2 injection for enhancing heavy oil recovery: Considering oil-nanofluid emulsification, Journal of Petroleum Science and Engineering, 2021.
[27] Phase Behavior and Miscibility of CO2-Hydrocarbon Mixtures in Shale Nanopores, Industrial & Engineering Chemistry Research, 2021.
[26] Effect of Nanopore Confinement on Fluid Phase Behavior and Production Performance in Shale Oil Reservoir, Industrial & Engineering Chemistry Research, 2021.
[25] Wettability effects on phase behavior and interfacial tension in shale nanopores, Fuel, 2021.
[24] 深水浊积岩油藏提高采收率方法研究——以安哥拉X油藏为例,石油钻探技术,2021.
[23] Adsorption induced critical shifts of confined fluids in shale nanopores, Chemical Engineering Journal, 2020.
[22] A critical review of CO2 enhanced oil recovery in tight oil reservoirs of North America and China, Fuel, 2020.
[21] Phase Behavior of Hydrocarbon Mixture in Shale Nanopores Considering the Effect of Adsorption and Its Induced Critical Shifts, Industrial & Engineering Chemistry Research, 2020.
[20] Gas injection for enhanced oil recovery in two-dimensional geology-based physical model of Tahe fractured-vuggy carbonate reservoirs: karst fault system, Petroleum Science, 2020.
[19] 纳米颗粒在岩石表面吸附—脱附规律研究,石油科学通报,2020.
[18] Effect of vug filling on oil-displacement efficiency in carbonate fractured-vuggy reservoir by natural bottom-water drive: A conceptual model experiment, Journal of Petroleum Science and Engineering, 2019.
[17] 致密储集层压裂液与致密砂岩相互作用研究,地质与勘探,2019.
[16] Experimental study on disproportionate permeability reduction caused by non-recovered fracturing fluids in tight oil reservoirs, Fuel, 2018.
[15] Preformed particle gel propagation and dehydration through semi-transparent fractures and their effect on water flow, Journal of Petroleum Science and Engineering, 2018.
[14] Conformance control for CO2-EOR in naturally fractured low permeability oil reservoirs, Journal of Petroleum Science and Engineering, 2018.
[13] Using screen models to evaluate the injection characteristics of particle gels for water control, Energy & Fuels, 2018.
[12] 缝洞型油藏裂缝内油水两相流动特征研究,西安石油大学学报(自然科学版),2018.
[11] 稠油油藏注超临界二氧化碳驱油影响因素分析,地质与勘探,2017.
[10] 轻质油藏注空气提高采收率技术适应性探讨,中国矿业,2016.
[9] Effect of polymer on disproportionate permeability reduction to gas and water for fractured shales, Fuel, 2015.
[8] Effect of polymer on gas flow behavior in microfractures of unconventional gas reservoirs, Journal of Natural Gas Science and Engineering, 2015.
[7] 考虑纵向非均质性的底水气藏临界产量计算方法,科学技术与工程,2015.
[6] D-optimal design for Rapid Assessment Model of CO2 flooding in high water cut oil reservoirs, Journal of Natural Gas Science and Engineering, 2014.
[5] Sensitivity analysis of water-alternating-CO2 flooding for enhanced oil recovery in high water cut oil reservoirs, Computers & Fluids, 2014.
[4] Derivation of water flooding characteristic curve for high water-cut oilfields, Petroleum Exploration and Development, 2013.
[3] 高含水期油田水驱特征曲线关系式的理论推导,石油勘探与开发,2013.
[2] 水驱油藏转注CO2驱油参数优化与效果评价,西安石油大学学报(自然科学版),2012.
[1] 考虑非达西渗流的底水锥进临界产量计算模型,石油学报,2012.
会议论文或报告
[23] 古龙页岩油注CO2相变渗流与提高采收率机理,第六届油气地质工程一体化论坛
[22] 考虑压裂窜扰的页岩油藏孔隙-裂缝介质油水两相流动机理,第六届油气地质工程一体化论坛
[21] 页岩油藏井间压裂干扰实例分析及防治对策研究,第六届油气地质工程一体化论坛
[20] Effect of CO2 Dissolution on Fluid Flow and Phase Behavior in Oil- Water Systems in Shale Reservoirs, URTeC 3860690 presented at SPE/AAPG/SEG Unconventional Resources Technology Conference, 2023.
[19] The application of focused ion beam scanning electron microscope (FIB-SEM) to the nanometer-sized pores in shales, presented at InterPore 2023, 2023.
[18] 页岩油储层提高采收率机理与方法探讨, 第五届提高采收率国际会议(特邀报告/分会主持人),2021.
[17] 页岩油储层提高采收率机理与技术探讨,第五届全国油气藏提高采收率技术研讨会(特邀报告/分会主持人),2021.
[16] Adsorption Behavior of Shale Oil in Slit Pores and Its Underlying Mechanisms: Insights from Molecular Dynamic Simulation, presented at 2020 AIChE Annual Meeting, 2020.
[15] Phase behavior and minimum miscibility pressure of confined fluids in organic nanopores, SPE 200449 presented at SPE Improved Oil Recovery Conference, 2020.
[14] Confinement Effect on the Fluid Phase Behavior and Flow in Shale Oil Reservoirs, URTeC 3135 presented at SPE/AAPG/SEG Unconventional Resources Technology Conference, 2020.
[13] 页岩纳米孔内烃类流体相行为研究,第四届全国油气藏提高采收率技术研讨会(特邀报告/分会主持人),2020.
[12] Phase equilibria of confined fluids in nanopores of shale rocks from an adsorption-dependent equation of state, presented at 2019 AIChE Annual Meeting, 2019.
[11] A critical review of CO2 enhanced oil recovery in tight oil reservoirs of North America and China, SPE 196548 presented at SPE/IATMI Asia Pacific Oil & Gas Conference and Exhibition, 2019.
[10] Modifying peng-robinson equation of state to consider influence of confinement on fluid phase behavior, presented at Carbon Management Technology Conference, 2019.
[9] Experimental modeling of gas channeling for water-alternating-gas flooding in high-temperature and high-pressure reservoirs, presented at Carbon Management Technology Conference, 2019.
[8] Effect of water-alternating-gas injection on gas and water production control in carbonate reservoirs, presented at Carbon Management Technology Conference, 2019.
[7] Recognition on gas channeling characteristics during CO2 flooding in low permeability reservoirs, presented at 2nd International Symposium on Oilfield Chemistry (Invited Speaker/Session Host), 2018.
[6] 低渗透油藏二氧化碳驱油气窜规律与防治措施研究,第二届全国油气藏提高采收率技术研讨会(特邀报告/大会主持人),2018.
[5] Fracturing fluid retention and its effect on fluid flow in microfractures of tight oil reservoirs, presented at 2017 AIChE Annual Meeting, 2017.
[4] Nitrogen gas flooding for naturally fractured carbonate reservoir: Visualisation experiment and numerical simulation, SPE 182479 presented at SPE Asia Pacific Oil & Gas Conference and Exhibition, 2016.
[3] Mechanism and applications of high-pressure air injection in light oil reservoirs, Presented at 2016 International Conference on New Energy and Sustainable Development, 2016.
[2] D-optimal design for Rapid Assessment Model of CO2 flooding in high water cut oilfields, Presented at 2014 International Conference on Enhanced Oil Recovery, 2014.
[1] 考虑纵向非均质性的底水气藏临界产量计算方法,第八届北京石油青年学术年会,2010.
专利
[19] 边底水侵模拟装置、方法、存储介质及产品,ZL202110839749.5
[18] 一种小分子稠油降粘聚合物及其制备方法,ZL202011367550.9
[17] 一种致密砂岩渗吸效果评价方法及装置,ZL202010082639.4
[16] 油气最小混相压力确定方法及装置,ZL202010105946.X
[15] 一种确定页岩孔径分布的方法、装置、设备及系统,ZL202010289460.6
[14] 岩心夹持器,ZL201910967950.4
[13] 一种注气驱油实验流体的确定方法及装置,ZL201910879964.0
[12] CO2驱油技术效果的评价方法及装置,ZL201811043315.9
[11] 缝洞型碳酸盐岩油藏缝洞分布图的建立方法及模型和应用,ZL201810520795.7
[10] 一种微分散凝胶强化泡沫体系及评价方法,ZL201710992894.0
[9] 模拟致密油藏裂缝内流体流动的可视化模型及制备和应用,ZL 201711005687.8
[8] 一种泡沫综合性能评价方法,ZL201710991873.7
[7] 一种水驱油田优势通道形成机理及发育情况的分析方法,ZL201510084039.0
[6] 缝洞型油藏三维可视化模型及其制作方法,ZL201511006046.5
[5] 模拟缝洞型碳酸盐岩油藏注气的可视化实验装置及方法,ZL201510724935.9
[4] 一种表征缝洞型油藏水驱开采效果的方法,ZL201510440959.1
[3] 缝洞型碳酸盐岩油藏物理模型、驱替模拟实验装置及系统,ZL201510712835.4
[2] 一种分级控制流度的CO2驱油藏开采方法,ZL201510309517.3
[1] 用于低渗透砂岩油藏的驱油实验装置及方法,ZL201510236158.3
学术兼职
[1] 石油工程教育部重点实验室副主任
[2] 北京能源与环境学会专家委员会副主任
[3] 国家领军期刊Petroleum Science副主编
[4] Geofluids期刊编委/学术编辑
[5] Energies期刊“New Insights into Enhanced Oil Recovery”专刊客座编辑
[6] 《石油科学通报》执行编委
[7] 2021/2022/2023 Unconventional Resources Technology Conference评委
[8] SPE J,Fuel,Energy & Fuels,Journal of Petroleum Science and Engineering,Journal of Natural Gas Science and Engineering,Petroleum Science,Energy Reports,European Physical Journal Plus,Journal of Unconventional Oil and Gas Resources,International Journal of Oil, Gas and Coal Technology,石油勘探与开发等学术期刊审稿人