张秀凤 博士/讲师 Ph.D. Assistant Professor Xiufeng ZHANG

发布者:郭鑫发布时间:2021-09-10浏览次数:8016


张秀凤 Xiufeng ZHANG

讲师(Assistant Professor

油气资源开采与存储、二氧化碳地质封存

教育背景

博士,东北大学,工程力学

博士联培,德国弗莱贝格工业大学,岩石力学

硕士,南华大学,土木工程

学士,常州工学院,土木工程

Email:xiufeng.zhang@shnu.edu.cn


张秀凤博士主要从事超临界CO2压裂开采非常规油气资源,CO2-水-储层相互作用,以及金属矿散体流动规律等方面的研究


工作经历

2023.01~2025.02,同济大学,博士后


研究项目

(1)主持,国家自然科学基金委员会,青年科学基金项目(42307208),页岩超临界CO2循环注入压裂成缝机理研究,2024-01至2026-12;

(2)主持,上海市人力资源和社会保障局,上海市白玉兰人才计划浦江项目(23PJD105),超临界CO2循环注入耦合相变效应诱导压裂岩石成缝机理及其对东部沿海CO2封存应用的启示,2023-10至2025-09;

(3)主持,中国博士后科学基金会,国家资助博士后研究人员计划B档(GZB20230529),2023-11至2025-11;

(4)主持,中央高校基本科研业务费,东北大学博士生科研创新项目(N2001034),页岩储层超临界CO2致裂机制与增透效应研究,2020-01至2021-12;

(5)参与,国家自然科学基金委员会,国际(地区)合作与交流项目(42320104003),深层高温高压页岩水力压裂特性与诱发地震机理研究,2024-01至2028-12;

(6)参与,腾讯首届碳寻计划项目(CarbonX Program),东部近海玄武岩CO2快速矿化封存技术及应用,2024-05至2026-05;

(7)参与,国家自然科学基金委员会,面上项目,地下含水多孔介质储氢注采机理和数据驱动的存储潜力评估(42477168),2025-01至2028-12;


荣誉嘉奖

2024.12,中国博士后科学基金会,博士后科研业绩评估考核资助三档

2018.05,湖南省优秀毕业生

2014.04,江苏省优秀毕业生

2013.05,江苏省三好学生(本科)


学术论文

(1)Xiufeng Zhang, Xuehang Song, Xingyu Li, Shuyuan Liu, Jiangmei Wang, Junjie Wei, Min Zhang. Supercritical CO2 injection-induced fracturing in Longmaxi shales: A laboratory study[J]. Energies, 2025, 18, 855.

(2)Liu Shuyuan, Zhu Wancheng, Liu Heyang, Wei Chenhui, Xiufeng Zhang, Liu Zhengdong. Thermal Effect on the Breakdown Pressure of Granite in Supercritical CO2 Fracturing: Experimental Study and Model Validation[J]. SPE Journal, 2025, SPE-224434-PA.

(3)Song Wang, Luqing Zhang, Lin Cong, Jian Zhou, Duoxing Yang, Xiufeng Zhang, Zhenhua Han. Three-dimensional lattice modeling of interaction behavior between hydraulic fractures and natural fractures with varied morphologies in hot dry rock[J]. Rock Mechanics and Rock Engineering, 2024.

(4)Xiufeng Zhang, Min Zhang, Shuyuan Liu, Heyang Liu. Prediction of breakdown pressure using a multi-layer neural network based on supercritical CO2 fracturing data[J]. Applied Sciences, 2024, 14,10545.

(5)Xiufeng Zhang, Fengshou Zhang, Xuehang Song, Junjie Wei, Shuyuan Liu, Jiangmei Wang. Stimulation of tight basalt reservoirs using supercritical carbon dioxide: Implications for large-scale carbon sequestration[J]. Journal of Rock Mechanics and Geotechnical Engineering, 2024.

(6)Shuyuan Liu, Wancheng Zhu, Xiufeng Zhang, Chenhui Wei, Heyang Liu, Zhengdong Liu. A breakdown pressure model for supercritical CO2 fracturing considering fluid infiltration effect using the point stress criterion[J]. Engineering Fracture Mechanics, 2024, 307.

(7)Xiufeng Zhang, Fengshou Zhang, Xuehang Song, Junjie Wei. Laboratory investigation on injection of supercritical CO2 into basalt: Implication for CO2 sequestration via mineralization[C]. IOP Conference Series Earth and Environmental Science, Shanghai, China, 2024.

(8)Wenxing Wang, Weiyu Huang, Xiufeng Zhang, Wancheng Zhu, Shihao Guo, Ang Li. Microbial-mediated changes during the Brine–Shale–Microorganism interaction process[J]. Geomicrobiology Journal, 2023, 40(7): 619-631.

(9)Xiufeng Zhang, Wancheng Zhu, Heinz Konietzky, Shuyuan Liu, Yan Peng. Effect of supercritical carbon dioxide fracturing on shale pore structure [J]. SPE Journal, 2022, 28 (03): 1399-1413.

(10)Wancheng Zhu, Xiufeng Zhang, Shuyuan Liu, Chenhui Wei, Jiangmei Wang, Heyang Liu. An experimental apparatus for supercritical CO2 fracturing of shale: System design and application tests [J]. Journal of Natural Gas Science and Engineering, 2022, 103: 104656.

(11)Xiufeng Zhang, Wancheng Zhu, Zenghe Xu, Shuyuan Liu, Chenhui Wei. A review of experimental apparatus for supercritical CO2 fracturing of shale[J]. Journal of Petroleum Science and Technology, 2022, 208: 1-17.

(12)Wancheng Zhu, Shuyuan Liu, Xiufeng Zhang, Chenhui Wei. Coupled coal–gas interaction during CBM and CO2‑ECBM recovery in coal seams: a critical review[J]. Geomechanics and Geophysics for Geo-Energy and Geo-Resources, 2022, 8: 195.

(13)Xiufeng Zhang, Ganqiang Tao, Zhonghua Zhu. A gravity flow model of fragmented rocks in longitudinal sublevel caving of inclined medium-thick orebody[J]. Archives of Mining Sciences, 2019, 64(3): 533-546.

(14)Ganqiang Tao, Mingxing Lu, Xiufeng Zhang*, Rui Zhang, Zhonghua Zhu. A new diversion drawing technique for controlling ore loss and dilution during longitudinal sublevel caving[J]. International Journal of Rock Mechanics and Mining Sciences, 2019, 113:163-171. (* Corresponding author).

(15)Xiufeng Zhang, Ganqiang Tao, Zhonghua Zhu. Laboratory study of the influence of dip and ore width on gravity flow during longitudinal sublevel caving[J]. International Journal of Rock Mechanics and Mining Sciences, 2018, 103:179-185.


发明专利

(1)张秀凤,张丰收,沈贤达,李孟熠,韦俊杰,玄武岩CO2矿化封存容器、封存装置和封存方法:中国,申请号:2024116352273[P]. 2024-11-15.

(2)张秀凤,张丰收,沈贤达,李孟熠,韦俊杰,基于超临界CO2注入玄武岩的压裂封存装置和方法:中国,申请号:2024116352305[P]. 2024-11-15.

(3)沈贤达,夏井泉,张丰收,张秀凤,陈世航,一种微观可视化地下储层两相流驱替实验系统及方法,申请号:2024115659547 [P]. 2024-11-05.

(4)张秀凤,张丰收,沈贤达,李孟熠,安孟可,基于CO2相态变化的致密岩石压裂装置和压裂方法:中国,申请号:2024113025354[P]. 2024-09-18.

(5)张秀凤,张丰收,沈贤达,安孟可,韦俊杰. 岩样压裂缝走向的诱导装置及使用方法:中国,授权号:CN117269423B[P]. 2024-05-10.

(6)何冠鹏,张丰收,沈贤达,安孟可,张秀凤. 干热岩剪切滑移后渗透率可恢复性的试验方法:中国,申请号:202311483301X[P]. 2023-11-08.

(7)朱万成,张秀凤,魏晨慧,徐曾和,刘书源,于永军,侯晨. 用于模拟超临界CO2致裂试样的井筒套管及使用方法:中国,授权号:CN111749668B[P]. 2021-06-29.

(8)朱万成,张秀凤,魏晨慧,刘书源,于永军,侯晨. 基于电阻变化的CO2压裂孔内相态变化监测装置及方法:中国,授权号:CN202011605745.2[P]. 2022-05-24.

(9)朱万成,刘书源,张秀凤,魏晨慧. 超临界二氧化碳压裂与渗透率测试一体的实验装置及方法:中国,申请号:CN202110851283.0[P]. 2022-11-05.

(10)朱万成,刘书源,张秀凤,魏晨慧. 一种模拟支撑剂铺置和渗透率演化的实验方法:中国,授权号:CN113389535B[P]. 2022-06-10.

(11)朱万成,王江梅,张秀凤,郭甲腾. 一种基于自由曲面的页岩试样内部压裂缝三维重构方法:中国,申请号:CN202210183626.5[P]. 2022-05-20.

(12)朱万成,王江梅,郭甲腾,张秀凤. 岩石试样内部裂隙面重构软件V1.0,中国,登记号:2021SR0635792,原始取得,全部权利,2021-05-06.


学术兼职

Earth Energy Science青年编委