张景臣
- 所在单位:非常规油气科学技术研究院/储层改造与开发工程研究所
- 所在学科:石油与天然气工程
- 个人学位:博士
- 职称名称:副研究员(自然科学)
- 教师类别:专任教师
- 导师类型:博士生导师,硕士生导师
- 招生专业:石油与天然气工程
教育经历
- 2011-05至2015-05, 英国赫里奥特-瓦特大学, 石油工程, 博士研究生
- 2007-09至2010-07, 中国石油大学(北京), 油气田开发工程, 硕士研究生
- 2003-07至2007-07, 中国石油大学(华东), 油气储运工程, 大学本科
个人概况
一、研究方向:储层改造、非常规油气藏开发、石油工程大型现场实验及其数值模拟
二、代表性成果:
(1)发表论文:
外文文献:1.A new method to optimize the fracture geometry of a frac-packed well in unconsolidated sandstone heavy oil reservoirs[J]. X.B. Bian,S.C. Zhang,J.C. Zhang, et al. Science China Technological Sciences. 2012, 55(6) : 1725-1731. SCI 2.302
2.Evaluation and Optimization of New Nanocomposite Fiber for Fracturing Technology Based on a New Equipment[J]. T.K.Guo,S.C.Zhang, J.C.Zhang,et al. Transport in Porous Media. 2012, 94(1) : 243-257. SCI 2.376
3.Numerical Study of Percolation Mechanism in Heavy-Oil, unconsolidated Sandstone Reservoirs with Frac-Pack Wells[J]. X.B. Bian,S.C. Zhang,J.C. Zhang,et al. Advanced Materials Research. 2012, 396-398:2175-2182.
4.Experimental evaluation of fracture stabilizers[J]. J.C. Zhang*,S.C. Zhang, X.B. Bian,et al. Petroleum Exploration and Development Online. 2013, 40(2) : 254-258. SCI 2.065
5.Experimental Study of Fracture Permeability for Stimulated Reservoir Volume (SRV) in Shale Formation[J]. T.K.Guo,S.C. Zhang,J.C. Zhang,et al. Transport in Porous Media. 2013, 98(3):525-542. SCI 2.621
6.Research of seepage in artificial fracture using pore network model[J]. J.C. Zhang,X.B. Bian,S.C. Zhang,et al. Science China Technological Sciences. 2013, 56(003):756-761. SCI 2.302
7.A comprehensive experimental study for optimization of fracture stabilizers[J]. J.C. Zhang*, X.B. Bian. Fuel. 2014, 132 : 149-152. SCI 4.908
8.Theoretical conductivity analysis of surface modification agent treated proppant[J]. J.C. Zhang*. Fuel. 2014, 134 : 166-170. SCI 4.908
9.Numerical simulation of hydraulic fracturing coalbed methane reservoir[J]. J.C. Zhang*,X.B. BIAN . Fuel. 2014, 136 : 57-61. SCI 4.908
10.Well spacing design for low and ultra-low permeability reservoirs developed by hydraulic fracturing[J]. X.B. BIAN,S.C. ZHANG,J.C. ZHANG,et al. Petroleum Exploration and Development Online. 2015, 42(5) : 705-711.
11.Numerical simulation of hydraulic fracturing coalbed methane reservoir with independent fracture grid[J]. J.C. Zhang*,X.B. Bian. FUEL. 2015,143:543-546.
12.Effect of Non-Darcy Flow on the Integral Fracturing Design of Low‐Permeability Petroleum Reservoirs[J]. X.B. Bian,L.X. Zhou ,J.C. Zhang,et al. Energy Technology. 2016, 4(2):263-270. SCI 3.403
13.A new method to diagnose reservoir fluids flow pattern induced by a hydraulic fracture[J]. J.C. Zhang*,X.B. Bian,C. Zhang,et al. International Journal of Oiland Coal Technology. 2017,14(4):339. SCI 0.563
14.Theoretical conductivity analysis of surface modification agent treated proppant II - Channel fracturing application[J]. J.C. Zhang*, J.R. Hou. FUEL. 2016,165:28-32.
15.Experimental study on modified polyacrylamide coated self-suspending proppant[J]. J.C. Zhang*,K.Y. Liu, M. Cao. FUEL. 2017,199:185-190.
(2)专有技术:1. 数据挖掘技术优化压裂参数方法 ZY2020136 张景臣,马新仿,王雷,王飞 2021-01-23;
2. 一种基于数值模拟的孔眼冲蚀优化方法 ZY2020135 张景臣,蒋建方 2021-01-23;
3. 一种大规模体积压裂综合评价法 ZY2020133 张景臣,蒋建方 2021-01-23;
4. 一种砾岩致密油压裂开发基质原油可动性实验评价方法 ZY2020134 张景臣,蒋建方 2021-01-23;
5. 大段多簇条件下孔眼流量计算方法及压裂效果评价方法 ZY2020132 张景臣,蒋建方 2021-01-23;
6. 正反驱替提高采收率微观分析 ZY20200126 张景臣,王明星,董景锋,石善志 2020-09-29;
7. 一种改性聚丙烯酰胺涂层自悬浮支撑剂及其评价方法 ZY20200123 张景臣,钟立国 2020-09-29;
8. 用于弹塑性材料弹性变形的粗化方法 ZY20200124 张景臣,王庆,贺甲元,张春 2020-09-29;
9. 通道压裂导流能力预测方法 ZY20200122 张景臣,钟立国 2020-09-29;
10. 非常规储层岩石力学性质与可压性评价技术 ZY20200128 邹雨时,马新仿,张士诚,牟建业,王飞,王雷,张景臣 2020-09-29;
11. 低渗特低渗油气藏储层伤害机理与对策技术 ZY20200130 蒋建方,郑力会,闫伟,张景臣,林梅钦 2020-09-29;
12. 低渗特低渗油气藏增产改造工作液应用技术 ZY20200129 蒋建方,郑力会,闫伟,张景臣,林梅钦 2020-09-29;
13. 非常规油气藏缝网压裂优化设计与体积改造工艺技术 ZY20200131 蒋建方,郑力会,闫伟,张景臣 2020-09-29;
三、 学术兼职:(1).SPE/ EAGE member
(2).Fuel/ Journal of Natural Gas Science & Engineering/ International Journal of Rock Mechanics and Mining Sciences/Transport in Porous Media 审稿人