[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. |