个人信息
刘天乐,男,汉族,1984年8月出生,辽宁省庄河市人,博士,教授,博士生导师/硕士生导师,国家级青年人才-中组部“青年拔尖人才”、江苏省“双创人才”,中国地质学会会员,中国可再生能源学会会员,圣彼得堡国立矿业大学客座教授。
E-mail: liutianle2008@163.com
教育背景(从大学开始)
2003/09 - 2007/06,新葡的京集团8814勘基系,工学学士
2005/03 - 2007/06,武汉大学商学院工商管理系,管理学学士
2007/09 - 2010/06,新葡的京集团8814勘基系,工学硕士
2009/11 - 2013/08,俄罗斯圣彼得堡国立矿业大学钻探教研室,工学副博士
工作经历
2013/09 - 2017/11,新葡的京集团8814勘基系,讲师
2017/12 - 2020/11,新葡的京集团8814勘基系,副教授
2020/12 - 至今,新葡的京集团8814勘基系,教授(破格)
招生专业、研究方向
硕士招生专业:地质工程、油气井工程、建筑与土木工程
博士招生专业:地质工程、油气井工程、建筑与土木工程
对考生的具体要求:孝敬父母、宽以待人、勤勉上进、谨言慎行
研究方向:非常规地质能源开发、石油钻井与固井、绿色智能建造、特种硅酸盐材料、微生物的工程应用、城市毒害气体高效处置、环境保护
讲授课程
《石油工程》、《钻探与成井工艺》、《钻井液与完井液》、《非常规能源钻探概论》、《建筑材料》、《地质矿产俄语》
主持或参加的教学研究项目
[1] 含水合物不稳定地层快速稳定井壁模拟实验装置研究,中国地质大学(武汉)实验技术研究项目,2015/01-2017/12,第一负责人
主持或参加的科研项目
[1]深海能源开发安全高效固井技术,2024/07-2026/05,企业科技攻关项目,第一负责人
[2]甲烷高效吸收与后处理工作液理论与技术,2022/11-2025/10,国家重点研发计划项目子课题,第一负责人
[3]微生物成矿对水合物储层改造性能研究,2022/11-2023/12,企业科技攻关项目,第一负责人
[4] 深水固井低热低密度紧密堆积水泥浆体系研究,2020/11-2023/12,国家其他部委项目,第一负责人
[5] 水合物分解对深水固井水泥环孔隙特征与力学性质的影响机制研究,2021/01-2024/12,国家自然科学基金面上项目,第一负责人
[6] 低密度早强防窜固井水泥浆体系研究,2020/11-2022/12,企业科技攻关项目,第一负责人
[7] 超深井水平井超低密度固井技术研究,2020/07-2021/06,企业科技攻关项目,第一负责人
[8] 水合物储层微生物加固防砂技术研究,2020/07-2021/06,企业科技攻关项目,第一负责人
[9] 深水表层固井水泥浆体系优化升级技术研究,2019/12-2022/12,企业科技攻关项目,第一负责人
[10] 深水固井水合物分解预测技术研究,2018/07-2019/12,企业科技攻关项目,第二负责人
[11] 乳品废水高效低成本预处理装置联合研发,2018/05-2019/05,企业科技攻关项目,第一负责人
[12] 泌阳凹陷陆相页岩井眼稳定岩石力学测试与地层可钻性评价,2017/11-2018/12,企业科技攻关项目,第一负责人
[13] 低固相冲洗液体系开发与性能测试,2018/01-2019/03,企业科技攻关项目,第一负责人
[14] 乳品废水乳糖母液基微生物固井技术,2017/09-2020/08,国家重点研发计划战略性国际科技创新合作重点专项项目,第二完成人
[15] 改性生物角质蛋白多功能固井水泥浆,2017/08-2019/07,“一带一路”教科文卫引智计划国际合作项目,第一负责人
[16] 不同水合物饱和度地层固井水泥浆水化热传导规律研究,2016/01-2018/12,国家自然科学基金青年基金项目,第一负责人
[17] 海洋含水合物地层固井水泥浆水化热机理研究,2015/05-2017/12,岩土钻掘与防护教育部工程中心开放基金项目,第一负责人
[18] 含水合物不稳定地层快速稳定井壁模拟实验装置研究,2015/01-2017/12,中国地质大学(武汉)实验技术研究项目,第一负责人
[19] 固井水泥浆水化在井壁附近含水合物沉积层传递机理研究,2015/07-2016/12,教育部留学回国人员科研启动基金项目,第一负责人
[20] 多年冻土区含水合物地层快速固井工艺研究,2014/01-2015/12,“中央高校基本科研业务费”新青年教师科研启动基金项目,第一负责人
发表的教学研究论文
[1]刘天乐, 蒋国盛. 对加强高校本科生科研引导的几点建议[J]. 教育教学论坛, 2018(13): 219-220.
发表的学术论文
[1] Tianle Liu, Guorun Zhao, Bo Qu, Cheng Gong. Characterization of a fly ash-based hybrid well cement under different temperature curing conditions for natural gas hydrate drilling. Construction and Building Materials, 2024, https://doi.org/10.1016/j.conbuildmat.2024.137874
[2] Shaojun Zheng, Tianle Liu*, Guosheng Jiang, Dayang Wen, Tian Dai, Guokun Yang, Huaimeng Gu, Changliang Fang. Direct evidence of pore structural effects on the compressive strength of lightweight cement slurry containing nano silica fume and hollow glass microspheres. Construction and Building Materials, 2024, https://doi.org/10.1016/j.conbuildmat.2023.134703
[3] Guokun Yang, Gang Lei, Tianle Liu*, Shaojun Zheng, Bo Qu, Chuanlin Que, Yingtao Feng, Guosheng Jiang. Development and application of low-melting-point microencapsulated phase change materials for enhanced thermal stability in cementing natural gas hydrate layers. Geoenergy Science and Engineering, 2024, https://doi.org/10.1016/j.geoen.2024.212846
[4] Junhui Kou, Yuanhai Pan, Hao Liu, Guokun Yang, Xiaoyang Ni, Guosheng Jiang, Tianle Liu*. Methane adsorption effect of cyclodextrin-based metal-organic frameworks and ultra-fine water mist composite system in closed container. Chemical Engineering Journal, 2024, https://doi.org/10.1016/j.cej.2024.153879
[5] Chengxiang Tang, Tianle Liu*, Changliang Fang, Shunbo Qin, Guokun Yang, Gang Lei, Jiaxin Sun. Experimental study of microbially induced carbonate precipitation treatment on seafloor sediment of hydrate formation. Acta Geotechnica, 2024, https://doi.org/10.1007/s11440-023-02183-x(0123456789
[6] Shunbo Qin, Jiaxin Sun, Tianle Liu*, Chengxiang Tang, Gang Lei, Xiaofeng Dou, Yuhang Gu. Sand control during gas production from marine hydrate reservoirs by using microbial-induced carbonate precipitation technology: A feasibility study. Energy, 2024, https://doi.org/10.1016/j.energy.2024.131494
[7] Tian Dai, Changliang Fang, Tianle Liu*, Shaojun Zheng, Gang Lei, Guosheng Jiang. Waste glass powder as a high temperature stabilizer in blended oil well cement pastes: Hydration, microstructure and mechanical properties. Construction and Building Materials, 2024, https://doi.org/10.1016/j.conbuildmat.2024.137359
[8] Shaojun Zheng, Mingsheng Chen, Tianle Liu*, Guokun Yang, Guosheng Jiang, Huaimeng Gu. Research on compressive strength and thermal conductivity of lightweight phosphogypsum-based composite cementitious materials. Construction and Building Materials, 2024, https://doi.org/10.1016/j.conbuildmat.2024.136955
[9] Gang Lei, Jiangtao Qu, Yinjie Zhao, Qi Wu, Tianle Liu*. Permeability behavior of hydrate-bearing clayey-silty sediments during creeping. Journal of Rock Mechanics and Geotechnical Engineering. 2024, https://doi.org/10.1016/j.jrmge.2024.04.014
[10] Ling Zhang, Shichen Wang, Guokun Yang, Huiyuan Luo, Hourun Lai, Tianle Liu*. Improving freeze resistance of cement-based materials with modified graphite-paraffin composite low-temperature microencapsulated phase change materials. Journal of Building Engineering, 2024, https://doi.org/10.1016/j.jobe.2024.109456
[11] Zheng Shaojun, Gu Huaimeng, Liu Tianle*, et al. Deepwater low-density ternary solid phase cement slurry system based on close packing theory. Natural Gas Industry, 2024, 44(2): 122-131.
[12] Jiadi Tang, Yusheng Zhao, Wan Cheng, Tianle Liu*, Guokun Yang, Mingsheng Chen, Gang Lei, Jian Xu, Yongning Huang. Evaluation of Thermal and Mechanical Properties of Foamed Phosphogypsum-Based Cementitious Materials for Well Cementing in Hydrate Reservoirs. Journal Of Marine Science And Engineering, 2024, https://doi.org/10.3390/jmse12071056
[13] Tian Dai, Tianle Liu*, Tao Zheng, Changliang Fang, Shaojun Zheng, Gang Lei. Effect of waste clay brick powder on microstructure and properties in blended oil well cement pastes at HTHP conditions. Geoenergy Science and Engineering, 2024, https://doi.org/10.1016/j.geoen.2024.212823
[14] Hu Can, Du Jun, Liu Tianle*, et al. Experimental study on negative temperature deterioration and sulfate attack resistance of cement slurry compounding CaCl2 and BaCl2. Safety and Environmental Engineering, 2024, 31(1): 96-106,115
[15] Zihang Wang, Tianle Liu*, Guokun Yang, Shitian Zhao. Preparation and research on cationic modified vermiculite with strong adsorption capacity for mineralizing bacteria. Materials Letters, 2024, https://doi.org/10.1016/j.matlet.2024.136313
[16] Tian Dai, Tianle Liu*, Tao Zheng, Changliang Fang, Shaojun Zheng, Gang Lei. Effect of waste clay brick powder on microstructure and properties in blended oil well cement pastes at HTHP conditions. Geoenergy Science and Engineering, 2024, https://doi.org/10.1016/j.geoen.2024.212823
[17] Shaojun Zheng, Tianle Liu*, Guosheng Jiang, Dayang Wen, Tian Dai, Guokun Yang, Huaimeng Gu, Changliang Fang. Direct evidence of pore structural effects on the compressive strength of lightweight cement slurry containing nano silica fume and hollow glass microspheres. Construction and Building Materials, 2024, 411, 134703, https://doi.org/10.1016/j.conbuildmat.2023.134703
[18] Yuhang Gu, Tianle Liu, Jiaxin Sun*, Fanfan Qin, Xinxin Cao, Shunbo Qin, Yanlong Li, Ling Zhang, Fulong Ning, Guosheng Jiang. Influence of key geological factors on fluid production behaviors in marine natural gas hydrate reservoirs: A case study. Ocean Engineering, 2023, 288, 116023, https://doi.org/10.1016/j.oceaneng.2023.116023
[19] Gang Lei, Tianle Liu*, Qinzhuo Liao, Xupeng He. Estimating permeability of porous media from 2D digital images. Journal of Marine Science and Engineering, 2023, 11, 1614. https://doi.org/10.3390/jmse11081614
[20] Tian Dai, Tianle Liu, Bangwei Qin, Bo Qu, Changliang Fang*, Shaojun Zheng. Effects of nanoparticles on mechanical and microstructural properties of cement composite pastes at high temperature and high pressure. Geoenergy Science and Engineering, https://doi.org/10.1016/j.geoen.2023.212262.
[21] Tian Dai, Tianle Liu, Bo Qu*, Changliang Fang, Shaojun Zheng, Guosheng Jiang. Reinforcement of oil well cement composites with alumina nanofibers under high temperature/pressure curing condition: Mechanical and microstructural properties. Construction and Building Materials, https://doi.org/10.1016/j.conbuildmat.2022.129913.
[22] Tianle Liu, Guokun Yang*, Hai Zhu, Chengxiang Tang, Bo Qu. Preparation of multifunctional phase change microcapsules for thermal energy storage and shielding against ionizing radiation. Materials Letters, https://doi.org/10.1016/j.matlet.2022.133559
[23] Tianle Liu, Cheng Gong, LongChen Duan, Bo Qu*. Effects of sodium citrate on compressive strength and microstructure of NaOH-activated fly ash/slag cement exposed to high temperature. Construction and Building Materials, https://doi.org/10.1016/j.conbuildmat.2022.129852
[24] Guokun Yang , Tianle Liu*, Blinov Pavel Aleksandravich, Yazhou Wang, Yingtao Feng, Dayang Wen, Changliang Fang. Temperature regulation effect of low melting point phase change microcapsules for cement slurry in nature gas hydrate-bearing sediments. Energy, https://doi.org/10.1016/j.energy.2022.124115.
[25] Bo Qu, Tianle Liu*, Longchen Duan, Cheng Gong, Wenjun Luo, Chenhao He, Yang Lv. The effect of sodium citrate on NaOH-activated BFS cement: Hydration, mechanical property, and micro/nanostructure. Cement and Concrete Composites, 133 (2022) 104703.
出版的专著或教材
[1] 非开挖工程学实验指导书, 中国, 中国地质大学出版社, 2024.02
[2] 油气井水合物地层钻井与固井, 中国, 四川大学出版社, 2023.09
[3] Ремонтно-изоляционные работы в нефтегазовых скважинах: теория и практика(复杂油气井强化固井:理论与实践), 俄罗斯, 圣彼得堡, НЕДРА, 2019.10.
科研成果(获得的奖项)
[1] 海洋低温复杂地层安全高效固井技术与应用, 湖北省科技进步二等奖, 2024.03
[2] 特殊地下资源与储气库钻井液技术及推广应用, 中国石油和化学工业联合会技术发明一等奖, 2022.12
[3] 非常规地质能源储层刻画与钻采行为预测及其调控关键技术, 湖北省科技进步一等奖,2020.12
[4] 复杂地质条件油气井固井技术和工艺, 圣彼得堡工程科技一等奖, 2020.11
[5] 基于乳品废水的微生物固井水泥浆性能研究, 中国石油学会石油工程专业委员会2020年固井技术研讨会三等奖,2020.11
[6] 微生物防窜自修复固井水泥浆技术及其应用, 圣彼得堡青年科技二等奖, 2019.10
[7] 钻井液与天然气水合物储层间相互作用机制, 中国石油集团科学技术奖-基础研究二等奖, 2019.05
[8] 利用微生物提高固井质量的实验研究进展, 第四届青年地质大会优秀论文奖, 2019.04
[9] 复杂地层钻探取心工艺技术及实验装置, 教育部技术发明一等奖, 2017.02
[10] 天然气水合物地层固井模拟实验系统, 湖北省高等学校自制实验教学仪器二等奖, 2015.05
[11] 海底天然气水合物地层钻井用聚合醇钻井液体系研究, 湖北省优秀硕士学位论文, 2011.10
获得的专利
[1] 一种模拟微生物加固天然气水合物储层的装置及方法,中国发明专利, 2021.09.24
[2] 一种相变控温微胶囊及其制备方法, 中国发明专利, 2020.10.30
[3] 一种固井水泥浆添加剂及其提高裂隙渗流通道半径的方法, 中国发明专利, 2019.03.22
[4] 一种含水合物/冰地层固井水泥环二界面胶结强度测试装置, 中国发明专利, 2019.01.15
[5] 用于模拟原岩孔隙特征的水泥试样的制作方法, 中国发明专利, 2018.11.16,
[6] 一种含水合物/冰的低温地层固井模拟实验反应釜, 中国发明专利, 2017.03.22,