李波
作者: 佚名 发布时间: 2017年10月24日 16:01 浏览次数:
姓   名

李波

  

职称职务

教授、博导、安全工程系副系主任




联系电话


Email

libo86@cqu.edu.cn

联系地址

重庆市沙坪坝区沙正街174号
welcome欢迎光临威尼斯下载A区1929cc威尼斯/400030

研究方向

天然气水合物安全高效开采技术,水合物储能技术及应用,气体分离提纯技术及应用

个人简历

2021/09-至今,welcome欢迎光临威尼斯下载,1929cc威尼斯,安全工程系,教授

2016/09-2021/08,welcome欢迎光临威尼斯下载,1929cc威尼斯,安全工程系,副教授

2017/09-2018/09,科罗拉多矿业大学,化学与生物工程系,访问学者

2014/08-2016/08,welcome欢迎光临威尼斯下载,资源及环境科学学院,安全工程系,讲师

2009/09-2014/07,中国科学院大学(广州能源研究所),热能工程,工学博士

2005/09-2009/07,中国科学技术大学,热科学和能源工程系,热能与动力工程专业,工学学士

学术兼职

中国可再生能源学会青年委员会委员

中国可再生能源学会天然气水合物专委会委员

国际期刊GeofluidsJournal of Marine Science and Engineering特刊客座编辑

代表性研究项目

[1] 国家自然科学基金面上项目:低渗双重介质中水合物相变动力学及其控制机制研究(NO.51876017),2019.01-2022.12,主持

[2] 国家自然科学基金青年基金:含裂隙多孔介质中天然气水合物分解动力学机理研究(NO.51506016),2016.01-2018.12,主持

[3] 中央高校基本科研业务费“学科交叉与团队建设专项”项目:井下原位加热强化开采冻土水合物基础研究(2020CDJQY-A044),2020.01-2021.12,主持

[4] 重庆市前沿与应用基础研究项目:冰点以下天然气水合物降压分解过程影响因素研究(NO.cstc2016jcyjA0034),2016.07-2019.06,主持

[5] 煤矿灾害动力学与控制国家重点实验室自主课题:冰冻型水合物降压分解相变及其控制机制研究,2019.11-2021.10,主持

代表性获奖

[1] 李波(12/15),天然气水合物开采三维综合模拟技术系统,广东省人民政府,广东省科学技术奖,一等奖,2014

[2] 李波,中国科学院经理奖,特别奖,2014

代表性专利

[1] 李小森, 李波, 李刚. 一种测量含水合物多孔沉积物渗透率的装置. 发明专利, 授权号:ZL201310430717.5

[2] 李小森, 李波, 李刚, 黄宁生. 一种沉积物中均匀高饱和度天然气水合物制备方法和装置. 发明专利, 授权号:ZL201310487685.2

代表性论文

[1] Wei Wen-Na, Li Bo*, Gan Quan*, Li Yuan-Le. Research progress of natural gas hydrate exploitation with CO2 replacement: A review. Fuel 2022, 312:122873.

[2] Li Bo*, Zhang Ting-Ting, Wan Qing-Cui, Feng Jing-Chun*, Chen Ling-Ling, Wei Wen-Na. Kinetic study of methane hydrate development involving the role of self-preservation effect in frozen sandy sediments. Applied Energy 2021, 300:117398.

[3] Li Bo*, Ye Yuan, Zhang Ting-Ting, Wan Qing-Cui. Numerical investigation into the gas production from hydrate deposit under various thermal stimulation modes in a multi-well system in Qilian Mountain. Entropy 2021, 23, 800.

[4] Wan Qing-Cui, Si Hu*, Li Bo*, Yin Zhen-Yuan, Gao Qiang, Liu Shu, Han Xiao, Chen Ling-Ling. Energy recovery enhancement from gas hydrate based on the optimization of thermal stimulation modes and depressurization. Applied Energy 2020, 278:115612.

[5] Li Bo*, Chen Ling-Ling, Wan Qing-Cui*, Han Xiao, Wu Yan-Qing, Luo Yong-Jiang. Experimental study of frozen gas hydrate decomposition towards gas recovery from permafrost hydrate deposits below freezing point. Fuel 2020, 280:118557.

[6] Wan Qing-Cui, Chen Ling-Ling, Li Bo*, Peng Kang*, Wu Yan-Qing. Insights into the control mechanism of heat transfer on methane hydrate dissociation via depressurization and wellbore heating. Industrial & Engineering Chemistry Research 2020, 59:10651-10663.

[7] Li Bo, Wei Wen-Na, Wan Qing-Cui, Peng Kang*, Chen Ling-Ling. Numerical investigation into the development performance of gas hydrate by depressurization based on heat transfer and entropy generation analyses. Entropy 2020, 22, 1212.

[8] Liang Yun-Pei, Liu Shu, Zhao Wen-Ting, Li Bo*, Wan Qing-Cui, Li Gang. Effects of vertical center well and side well on hydrate exploitation by depressurization and combination method with wellbore heating. Journal of Natural Gas Science and Engineering 2018, 55:154-164.

[9] Li Bo, Liu Sheng-Dong, Liang Yun-Pei*, Liu Hang. The use of electrical heating for the enhancement of gas recovery from methane hydrate in porous media. Applied Energy 2018, 227:694-702.

[10] Li Bo*, Liang Yun-Pei, Li Xiao-Sen, Zhou Lei. A pilot-scale study of gas production from hydrate deposits with two-spot horizontal well system. Applied Energy 2016, 176:12-21.

[11] Li Bo, Liang Yun-Pei*, Li Xiao-Sen, Wu Hui-Jie. Numerical analysis of methane hydrate decomposition experiments by depressurization around freezing point in porous media. Fuel 2015, 159:925-934.

[12] Li Bo, Li Xiao-Sen*, Li Gang, Chen Zhao-Yang. Evaluation of gas production from Qilian Mountain permafrost hydrate deposits in two-spot horizontal well system. Cold Regions Science and Technology 2015, 109:87-98.

[13] Li Bo, Li Xiao-Sen*, Li Gang, Feng Jing-Chun, Wang Yi. Depressurization induced gas production from hydrate deposits with low gas saturation in a pilot-scale hydrate simulator. Applied Energy 2014, 129: 274-286.

[14] Li Bo, Li Xiao-Sen*, Li Gang. Kinetic studies of methane hydrate formation in porous media based on experiments in a pilot-scale hydrate simulator and a new model. Chemical Engineering Science 2014, 105:220-230.

[15] Li Bo, Li Xiao-Sen*, Li Gang, Wang Yi, Feng Jing-Chun. Kinetic behaviors of methane hydrate formation in porous media in different hydrate deposits. Industrial & Engineering Chemistry Research 2014, 53(13): 5464-5474.

[16] Li Bo, Li Gang, Li Xiao-Sen*, Chen Zhao-Yang, Zhang Yu. The use of heat-assisted antigravity drainage method in the two horizontal wells in gas production from the Qilian Mountain permafrost hydrate deposits. Journal of Petroleum Science and Engineering 2014, 120:141-153.

[17] Li Bo, Li Gang, Li Xiao-Sen*, Li Qing-Ping, Yang Bo, Zhang Yu, Chen Zhao-Yang. Gas production from methane hydrate in pilot-scale hydrate simulator using huff and puff method by experimental and numerical studies. Energy & Fuels 2012, 26(12):7183-7194.

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