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张成朋
作者: 佚名 发布时间: 2023年08月29日 15:42 浏览次数:

张成朋

职称职务

副教授、硕导


 

 

 

Email

lszcp1485@cqu.edu.com

联系地址

重庆市沙坪坝区沙正街174
 
重庆大学A区资源与安全学院/400030

研究方向

微观岩石力学;超临界CO2压裂;微支撑剂;非常规储层改造

个人简历

2022.09-至今,重庆大学,资源与安全学院,副教授

2019.01-2022.08,重庆大学,资源与安全学院,讲师

2014.09-2018.09,莫纳什大学,岩土工程,博士

2011.09-2014.06,河海大学,岩土工程,硕士

2007.09-2011.06,烟台大学,土木工程,学士

学术兼职

(1) 重庆市科学技术协会“六大”代表;

(2) 重庆市石油天然气协会,理事/副秘书长;

(3) 美国石油工程师协会(SPE),会员;

(4) 第一届、第二届IC3G国际会议,组织委员会成员;

代表性研究项目

主持项目:

(1) 国家自然科学基金青年项目:基于纳米压痕的非均质性页岩基质力学尺度效应研究,2022/01-2024/12 30万元;

(2) 中国博士后基金面上项目:超临界CO2溶浸作用下页岩裂隙损伤机理研究,   2020/09-2022/09 8万元;

(3) 重庆市人社局项目留学人员回国创业创新支持计划:考虑微纳米支撑剂压嵌作用的CO2压裂页岩裂隙导流特性多场耦合机理研究,   2020/01-2021/125万元;

(4) 重庆市科技局博士后科学基金面上项目: CO2压裂页岩裂隙内微纳米支撑剂输运机理研究,   2020/10-2022/09

(5) 中央高校基本科研业务费学院专项:超低渗透性页岩气储层增透技术研究, 2019/01-2020/116万元;

(6) 煤矿灾害动力学与控制国家重点实验室自主研究面上项目:基于CFD-DEM的微支撑剂在超临界CO2压裂次级裂缝中运移行为研究,2022/01-2023/1210万元;

主要参与项目:

(1) 国家自然科学基金区域创新发展联合重点项目:山地页岩气大规模水力压裂诱发地质灾害机理及智能评价预测方法,2022/01-2025/12,排名第4

(2) 国家自然科学基金联合重点项目:煤层气及煤系气合采基础研究,2020/01-2023/12,排名第7

(3) 重庆市科技局自然科学基金重点项目:深部页岩水力压裂缝网形成机制和能量释放特征研究, 2021/01-2023/12,排名第2

(4) 陕西延长石油(集团)有限责任公司研究院:超临界CO2压裂岩石致裂机理研究及经济性评价,2019/09   -2020/06

(5) 重庆大学煤矿灾害动力学与控制国家重点实验室开放课题:Two-phase flow properties of coal and interburden rock strata   on in-seam and interburden gas and water flow2020/01-2021/0930万元;

(6) 澳大利亚研究理事会(Australian   Research Council):Sustainable and green   technologies for Deep gas recovery2016.01-2019.12

代表性专利

(1) 张成朋,穆景福,卢义玉等,水力压裂实验用基座装置,发明专利,2019, 申请号: CN2019111739448

(2) 孙晓,张成朋,吴金桥等,一种非常规天然气井压裂物理模拟试样的制备方法,发明专利,2019, 申请号: CN2019112529381

(3) 穆景福,张成朋,卢义玉等,一种压裂实验用基座装置,实用新型专利,2019年,申请号:CN2019220636573

(4) 王大琳,张成朋,程鹏等,超临界CO2结合微纳米支撑剂应用于页岩气储层开采的方法,发明专利,2020, 申请号:   CN2020112980398

(5) 何琦,张成朋,马朝阳等, 一种模拟储层条件下支撑剂传输的方法,发明专利,2021年,申请号:CN2021104408414

(6) 胡巍蓝,程鹏,张成朋等, 一种二氧化碳携带支撑剂的试验系统及方法, 发明专利,2021年,申请号:CN202110449089X

(7) 张渤,张成朋,任相彦等, 裂缝内高温高压泡沫携支撑剂运移模拟装置, 实用新型专利,2021年,申请号:CN2021221537303

代表性专著、教材


代表性论文

(1) Cheng, P., CP Zhang*, Ma, Z. Y.,   Zhou, J. P., Zhang, D. C., Liu, X. F., Chen, H. & Ranjith, P. G. 2022.   Experimental study of micromechanical properties alterations of shale matrix   treated by ScCO2-Water saturation using nanoindentation tests. Energy, 242,   122965.

(2) D Zhang, H Gao, PG   Ranjith, CP Zhang*, G Ma2022.   Experimental and Theoretical Study on Comparisons of Some Gas Permeability   Test Methods for Tight Rocks. Rock Mechanics and Rock Engineering.

(3) CP Zhang*,   S Liu, ZY Ma, PG Ranjith, 2021. Combined micro-proppant and supercritical   carbon dioxide (SC-CO2) fracturing in shale gas reservoirs: A review. Fuel,   305, 121431

(4) Z Ma, RP Gamage*, CP   Zhang*, 2021. Mechanical properties of α-quartz using nanoindentation   tests and molecular dynamics simulations. International Journal of Rock   Mechanics and Mining Sciences, 147, 104878

(5) B Zhang, RP   Gamage*, CP Zhang*, A Wanniarachchi. 2021. Hydrocarbon recovery:   Optimized CFD-DEM modeling of proppant transport in rough rock fractures,   Fuel, 122560

(6) CP Zhang*,   P Cheng, ZY Ma, PG Ranjith, JP Zhou, 2021. Comparison of fracturing unconventional   gas reservoirs using CO2 and water: An experimental study. Journal of   Petroleum Science and Engineering, 203, 108598

(7) Z Ma, CP Zhang,   RP Gamage*, G Zhang, 2021. Uncovering the creep deformation mechanism of   rock-forming minerals using nanoindentation. International Journal of Mining   Science and Technology.

(8) Z Ma, RP Gamage*, CP   Zhang*, 2021. Effects of temperature and grain size on the mechanical   properties of polycrystalline quartz. Computational Materials Science, 188,   110138

(9) Z Ma, RP Gamage*, CP   Zhang*, 2020. Application of nanoindentation technology in rocks: a   review, Geomechanics and Geophysics for Geo-Energy and Geo-Resources, 6 (4),   1-27

(10) CP Zhang*, P   Cheng, PG Ranjith, YY Lu, JP Zhou, 2020. A comparative study of fracture   surface roughness and flow characteristics between CO2 and water fracturing.   Journal of Natural Gas Science and Engineering, 76, 103188

(11) CP Zhang*, P   Cheng, YY Lu, DC Zhang, JP Zhou, ZY Ma, 2020. Experimental evaluation of gas   flow characteristics in fractured siltstone under various reservoir and   injection conditions: an application to CO2-based fracturing. Geomechanics   and Geophysics for Geo-Energy and Geo-Resources, 6 (1), 1-15

(12) PG Ranjith, CP   Zhang*, ZY Zhang, 2019. Experimental study of fracturing behaviour in   ultralow permeability formations: a comparison between CO2 and water   fracturing. Engineering Fracture Mechanics, 217, 106541

(13) CP Zhang,   P.G. Ranjith*. 2018. Simulation of flow behaviour through fractured   unconventional gas reservoirs considering the formation damage caused by   water-based fracturing fluids, Journal of Natural Gas Science and   Engineering, 57, 100-121.

(14) CP Zhang, Ranjith, P.*, Perera, M.,   Zhao, J., Zhang, D. & Wanniarachchi, W. 2016. A novel approach to precise   evaluation of carbon dioxide flow behaviour in siltstone under tri-axial   drained conditions. Journal of Natural Gas Science and Engineering, 34,   331-340.


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