职 称:讲师
导师 资格:硕导
所属 部门:油井完井技术中心
学科 专业:油气田开发工程
研究 方向:油气藏生产动态监测与分析、二氧化碳地质封存技术
联系 方式:le-luo@swpu.edu.cn
联系 地址:610500 皇家永利成都市新都区新都大道8号国重室B307
博士,毕业于中国石油大学(北京)油气田开发工程专业,2021年起任西南石油大学石油与天然气工程学院讲师。曾在美国得州农工大学石油工程系学习,研究美国二叠系盆地页岩油动态分析方法,与加拿大卡尔加里大学地球科学系在非常规储层复杂多相流动态分析方法及二氧化碳地质封存方向建立了密切合作关系。以科学理论研究服务于现场工程应用为目标,围绕非常规油气藏试井与产量递减分析、页岩/盐穴/深部煤层二氧化碳地质封存、微型压裂测试与压裂液返排测试分析的相关课题形成了特色研究方向,已在《SPE Reservoir Evaluation & Engineering》《Fuel》《Journal of Petroleum Science and Engineering》《Journal of Natural Gas Science and Engineering》等业内国际重要期刊与SPE ATCE顶级会议上发表学术论文。
●2011.09-2015.08 西南石油大学,石油工程,学士
●2015.09-2021.06 中国石油大学(北京),油气田开发工程,博士
●2018.09-2020.10 德克萨斯农工大学,石油工程,联合培养博士研究生
●2022.01-2023.05 卡尔加里大学,地球科学,博士后
●2021.11-至今 西南石油大学石油与天然气工程学院,讲师
●博士后国际交流计划派出项目,PC2022045,深部煤层二氧化碳封存潜力评价方法,2022-2023,负责
●横向协作项目,中石化西北石油局,顺北断控型油气藏动态储量计算方法,2023,负责
●横向协作项目,中国石油西南油气田分公司,“三高”有水气藏动态储量计算方法优化及提高储量动用对策研究,2021-2022,参与
●国家自然科学基金面上项目,11872073,致密油藏注水诱发微裂缝机理及反演方法,2019-2022,参与
●横向协作项目,中国石化石油勘探开发研究院,大牛地气田气井生产动态分析,2017-2019,参与
●横向协作项目,中国石油长庆油田分公司,靖边油田大路沟二区稳产技术政策,2016-2017,参与
●国际合作项目,FD.03.19A,Mitacs Accelerate Project,Evaluation of CO2 Storage Potential in the Deep Mannville Coals,2021-2022,参与
●国际合作项目,IT26700,Crisman Institute Project,Pressure Transient Analysis in Shale Reservoirs,2019-2021,参与
●Luo L,Wei S H,Duan Y G,et al. Analytical method for production forecasting during boundary-dominated flow in unconventional volatile oil reservoirs using single-phase analogy[J]. Journal of Energy Resources Technology,2024,146(3):1-12.
●Luo L,Cheng S Q,Lee J. Time-normalized conductivity concept for analytical characterization of dynamic-conductivity hydraulic fractures through pressure-transient analysis in tight gas reservoirs[J]. Journal of Natural Gas Science and Engineering,2021,92:103997.
●Luo L,Cheng S Q. In-Situ characterization of nonlinear flow behavior in ultra-low permeability reservoirs[J]. Journal of Petroleum Science and Engineering,2021,203:108573.
●Luo L,Cheng S Q,Lee J. Semi-analytical model for characterization of anomalous linear-flow behavior in partially-propped fractured wells[J]. Journal of Petroleum Science and Engineering,2021,200:108380.
●Luo L,Cheng S Q,Lee J. Characterization of refracture orientation in poorly propped fractured wells by pressure transient analysis:model,pitfall,and application[J]. Journal of Natural Gas Science and Engineering,2020,79:103332.
●Luo L,Lee J,Blasingame T. Difference-Value plotting function for pressure transient analysis in low-permeability reservoirs[C]. Denver,Colorado:Presented at SPE Annual Technical Conference and Exhibition,5-7 October,2020,SPE-201448-MS.
●Luo L,Lee J. Rate Transient analysis in unconventional volatile oil reservoirs[C]. Austin,Texas:Presented at SPE/AAPG/SEG Unconventional Resources Technology Conference,20-22 July,2020,URTeC-2501-MS.
●Luo L,Cheng S Q,Lee J. Analytical approach for multi-phase production data analysis in boundary-dominated flow using three-phase fluid properties[C]. Charleston,West Virginia:Presented at SPE Eastern Regional Meeting,15-17 October,2019,SPE-196587-MS.
●Luo L,Cheng S Q,Lee J. Analytical model for rate transient analysis in low-permeability volatile oil reservoirs[C]. Calgary,Canada:Presented at SPE Annual Technical Conference and Exhibition,30 September-2 October,2019,SPE-195900-MS.
●Luo L,Cheng S Q,Lee J. Integrating multiple pressure build-up tests to characterize the behavior of dynamically-closed fractures[C]. San Jose,California:Presented at SPE Western Regional Meeting,23-26 April,2019,SPE-195308-MS.
●Luo L,Cheng S Q,Dai L,et al. A Novel technique applied in early-time pressure transient analysis for fractured wells with unpropped segments[C]. Beijing,China:Presented at International Petroleum Technology Conference,26-28 March,2019,IPTC-19452-MS.
●Luo L,Cheng S Q,Yu H,et al. A novel well testing method for characterization of non-darcy flow behavior in low permeability reservoirs[C]. San Antonio,Texas:Presented at SPE Annual Technical Conference and Exhibition,9-11 October,2017,SPE-187394-MS.
●Yu H,Yang Z,Luo L,et al. Application of cumulative-in-situ-injection-production technology[J]. Fuel,2019,242:804-818.
●罗乐,卫诗豪,段永刚.煤层碳封存潜力评价测试方法及系统:202311266474.6[P].2023-12-05.
●罗乐,卫诗豪,段永刚,等.利用井底压力计获取煤层碳封存过程绝对渗透率的方法:202311382165.5 [P].2023-12-26.
●程时清,罗乐,于海洋,等.利用压力监测资料反演低渗透储层非达西渗流规律的方法:201710751816.1[P].2017-08-28.
●程时清,汪洋,于海洋,罗乐,等.一种通过测压数据监测注水动态裂缝的方法:201710720474.7[P].2017-08-21.
研究立足于石油与天然气非再生能源,拓展低碳清洁能源体系需求的新领域。以多孔介质渗流力学理论为基础,研究非常规化石能源开发、二氧化碳/氢气地质封存全过程的渗流力学相关问题,如非线性与复杂多相渗流理论及应用、油气井高效注采能力评价、地质封存潜力评估等。
团队主要研究领域:
●非常规油气藏工程理论及方法
●复杂结构井试井及产能评价
●数字岩心及微纳尺度渗流机理
●井下全生命周期监测解释技术及智能完井
●大数据及机器学习应用
●二氧化碳封存实验及模拟研究
油气藏动态监测与评价研究团队以段永刚为领衔,当前骨干成员有方全堂,魏明强,任科屹,李政澜,罗乐。团队从成立以来一直从事油气田开发工程领域的研究工作,在特殊油气井产能及试井分析理论与方法、复杂结构井渗流理论及油藏工程理论与方法、特殊油气藏产能及试井分析理论与方法、二氧化碳地质封存的理论与方法等学术方向形成了研究特色。
(课题组网页:https://www.x-mol.com/groups/wmec)