职        称:副研究员

所属 部门:流体与热工教研室
学科 专业:油气田开发工程
研究 方向:非常规油气岩石力学
联系 方式:zhaojl@swpu.edu.cn
联系 地址:610500四川省成都市新都区新都大道85号红宝石官方网站hbs123全国重点实验室B403

赵俊良,四川苍溪人,博士。2019年6月获北京大学力学(能源与资源工程)博士学位,2023年10月入职红宝石官方网站hbs123石油与天然气工程学院。主要从事页岩油气、地热和天然气水合物相关的微观力学研究,利用离位和电镜原位的微纳米力学测试技术对地质材料的微尺度力学性质进行表征和探索。其他研究兴趣包括力学性质的尺度升级、数字岩心技术与应用以及微观力学测试和机器学习的联合应用方案开发等。主持/主研国家自然科学基金、国家科技重大专项和深圳市科技计划项目等7项。在《SPE Journal》《Journal of Geophysical Research:Solid Earth》《International Journal of Rock Mechanics and Mining Sciences》等SCI期刊发表论文十余篇,其中第一/通讯作者论文7篇。长期担任《SPE Journal》《Gas Science and Engineering》等期刊审稿人。

个人经历

●2009.09-2010.06    中国石油大学(北京),数学与应用数学
●2010.07-2013.06    中国石油大学(北京),地质工程,学士
●2013.09-2019.07    北京大学,力学(能源与资源工程),博士(直博)
●2019.07-2020.10    北京大学工学院,实验员
●2020.11-2023.10    南方科技大学环境科学与工程学院,研究助理教授
●2023.10-2024.01    红宝石官方网站hbs123石油与天然气工程学院,讲师
●2024.01-至今          红宝石官方网站hbs123石油与天然气工程学院,副研究员

主研项目

●国家自然科学基金青年科学基金项目,42202137,页岩中有机质变形和破裂行为的扫描电镜原位研究,2023.01-2025.12,主持
●国家自然科学基金青年科学面上项目,52174025,深层页岩密切割压裂三维曲面裂缝群动态演化机制研究,2022.01-2025.12,主研
●深圳市科技计划项目,ZDSYS20200421111201738,深圳市天然气水合物重点实验室(筹建启动),2021.03-2023.09,主研
●北京大学教育基金会捐赠项目,050307,碳俘获、利用与封存—钢铁行业,2017.07-2020.12,主研
●“十三五”国家科技重大专项,2017ZX05039-005-001,陆相页岩气产能评价技术研究,2017.01-2020.12,主研
●“十三五”国家科技重大专项,2016ZX05037-003-001,页岩基质多尺度传质数学模型研究,2016.01-2020.12,主研
●“十三五”国家科技重大专项,2016ZX05034-001-007,东部断陷盆地页岩油气赋存方式与富集规律研究,2016.01-2020.12,主研

代表性成果

●Mo C K,Zhao J L,Zhang D X. Mode I microscopic cracking process of granite considering the criticality of failure[J]. Journal of Geophysical Research:Solid Earth,2023,128(10):e2023JB027040.
●Zhang P Y,Zhao J L,Zhang D X,et al. Microindentation analysis of mechanical properties evolution during an artificial hydrocarbon generation process[J]. Gas Science and Engineering,2023:205003.
●Zhang W,Zhao J L,Zhang D X. Construction and validation of the upscaling model of organic-rich shale by considering water-sensitivity effects[J]. Journal of Petroleum Science and Engineering,2022,216:110718.
●Zhao J L,Zhang W,Zhang D X. Elastic characterization of shale at microscale:A comparison between modulus mapping,PeakForce quantitative nanomechanical mapping,and contact resonance method[J]. SPE Journal,2022:1-22.
●Mo C K,Zhao J L,Zhang D X. Real-time measurement of mechanical behavior of granite during heating-cooling cycle:A mineralogical perspective[J]. Rock Mechanics and Rock Engineering,2022:1-20.
●Zhang W,Zhang D X,Zhao J L. Experimental study of the influence of geochemical features on the viscoelasticity of organic matter in shale[J]. Marine and Petroleum Geology,2022,143:105785.
●Zhang W,Zhang D X,Zhao J L. Experimental investigation of water sensitivity effects on microscale mechanical behavior of shale[J]. International Journal of Rock Mechanics and Mining Sciences,2021,145:104837.
●Zhao J L,Zhang W,Zhang D X,et al. Influence of geochemical features on the mechanical properties of organic matter in shale[J]. Journal of Geophysical Research:Solid Earth,2020,125(9):e2020JB019809.
●Zhao J L,Zhang D X. Dynamic microscale crack propagation in shale[J]. Engineering Fracture Mechanics,2020,228:106906.
●Wu T H,Zhao J L,Zhang W,et al. Nanopore structure and nanomechanical properties of organic-rich terrestrial shale:An insight into technical issues for hydrocarbon production[J]. Nano Energy,2020,69:104426.
●Zhao J L,Zhang D X,Wu T H,et al. Multiscale approach for mechanical characterization of organic-rich shale and its application[J]. International Journal of Geomechanics,2019,19(1):04018180.
●Zhao R,Liang Z B,Gao S,Yang C,Zhu B J,Zhao J L,et al. Puffing up energetic metal-organic frameworks to large carbon networks with hierarchical porosity and atomically dispersed metal sites[J]. Angewandte Chemie,2019,131(7):1997-2001.
●Guo W H,Liang Z B,Zhao J L,et al. Hierarchical cobalt phosphide hollow nanocages toward electrocatalytic ammonia synthesis under ambient pressure and room temperature[J]. Small Methods,2018,2(12):1800204.
●Jiang Z,Zhang D X,Zhao J L,et al. Experimental investigation of the pore structure of triassic terrestrial shale in the Yanchang Formation,Ordos Basin,China[J]. Journal of Natural Gas Science and Engineering,2017,46:436-450.
●Wu T H,Li X,Zhao J L,et al. Multiscale pore structure and its effect on gas transport in organic‐rich shale[J]. Water Resources Research,2017,53(7):5438-5450.
●张东晓,杨婷云,吴天昊,李想,赵俊良.页岩气开发机理和关键问题[J].科学通报,2016,61(1):62-71.

研究领域

●地质材料的微观力学研究
●力学升尺度模型构建
●数字岩心技术与应用
●微观力学测试和机器学习的联合应用方案开发

研究团队

复杂油气藏渗流理论与应用研究团队以张烈辉教授为领衔,学术团队由李晓平、赵玉龙、刘启国、陈军、冯国庆、胡书勇、王海涛、罗建新、郭晶晶、谭晓华、唐慧莹、张涛、田野、李溢龙、赵俊良等骨干教师组成。该研究团队的主要特点是基于建立的渗流物理模型,以油气渗流机理实验研究为手段,以数学、力学为工具,采用多学科交叉渗透结合的研究方法,建立油气藏科学开发的渗流力学理论,在理论研究取得突破的基础上,研究油气田开发中的系列重要关键技术,包括油气藏数值模拟技术、油气井试井分析技术、油气藏动态分析技术等。