宋永臣
近期热点
资料介绍
个人简历
个人简介 宋永臣,大连理工大学副校长、海洋能源利用与节能教育部重点实验室主任、教育部111学科引智基地主任、科技部国际合作基地主任。 长期从事天然气水合物安全、高效开采和二氧化碳资源化利用相关研究工作。近年来,承担包括国家重点研发计划、国家科技重大专项、国家“973”、“863”、国家自然科学基金重点项目、国家自然科学基金仪器专项,国家科技部国际合作重大项目等国家重大科研项目20余项。出版译著4部。发表学术论文400余篇,其中SCI论文360余篇,ESI热点论文2篇,高被引论文8篇,SCI他引4100余次,H指数35。授权国家发明专利42项,获省部级特等奖1项,一等奖2项。获国务院政府特殊津贴,教育部新世纪优秀人才,辽宁省优秀教师,辽宁省百千万人才(百人层次),辽宁省领军人才,大连市优秀专家等荣誉称号。教育经历1989.9 - 1992.12 大连理工大学 内燃机 博士 1985.9 - 1989.7 大连理工大学 内燃机 硕士 1981.9 - 1985.7 大连理工大学 应用物理 学士 工作经历2004.10 - 至今 大连理工大学 教授 2003.4 - 2004.10 日本国立产业技术综合研究所 特别研究员 2000.4 - 2003.3 日本地球环境产业技术研究所 主任研究员 1998.4 - 2000.3 日本地球人间环境研究所 客员研究员 1997.4 - 1998.3 日本名古屋大学 访问学者 1997.1 - 1997.3 日本群马大学 访问学者 1992.12 - 1996.12 大连理工大学 教师 专利 一种应用CT测量多孔介质内CO2在盐水中的溶解速率的方法 一种应用CT测量多孔介质内气液间舍伍德数的装置及方法 一种海底天然气水合物岩心声波式平面应变仪装置 天然气水合物管路堵塞截面轮廓检测方法及实施该方法的装置 一种压力波法管道堵塞检测的实验系统 天然气水合物管路堵塞截面轮廓检测方法及实施该方法的装置 著作成果 走向低碳社会——由资源、能源、社会系统开创未来 小水力发电技术 太阳能利用新技术 氢能技术 Hydrate-based CO2 capture from flue gas in constant pressure process with the presence of THF Diffusion in glycerol-water binary and glycerol-water-sodium chloride ternary solutions and the viewpoint of hydrogen bonds 科研项目 天然气水合物基础物性船载分析测试, 企事业单位委托科技项目, 2018/05/16-2018/09/30, 进行 热科学与工程中的测量技术国际会议, 国家自然科学基金项目, 2017/11/30-2017/12/31, 完成 水合物形成与分解过程微观结构与宏观力学特征, 国家科技部 , 2017/06/01, 进行 南海多类型天然气水合物成藏原理与开采基础研究, 国家科技部 , 2017/06/02, 进行 天然气水合物储层稳定性评价关键设备及软件开发, 2014/01/01, 完成 深水水合物堵塞监测与检测技术, 科技部重大专项, 2016/07/04, 进行 学术荣誉 教育部\研究领域
"研究领域 致密多孔介质内超临界CO2、水及原油输运特性的基础研究 国家自然科学基金重点项目天然气水合物开采关键基础科学问题研究 国家自然科学基金重点项目高压、低温天然气水合物三轴仪装置研制 国家自然科学基金仪器专项温室气体提高石油采收率的资源化利用及地下埋存 国家“973”计划项目二氧化碳减排、储存和资源化利用的基础研究 国家“973”计划项目我国天然气水合物富集规律与开采基础研究 国家“973”计划项目天然气水合物岩芯在线快速探测与岩芯分析技术研究 国家“863”计划重点项目天然气水合物勘探开发关键技术 国家“863”计划重大项目二氧化碳捕集分离与封存技术 国家“863”计划重点项目二氧化碳驱油提高石油采收率与封存关键技术研究 国家“863”计划重点项目天然气水合物高效、安全开采技术研究 科技部国际合作项目冻土地域天然气水合物热力学特性的基础研究 国家自然科学基金冻土地域天然气水合物形成与分解的基础研究 国家自然科学基金自然条件下的天然气水合物基础物性研究 教育部科学研究重大项目天然气水合物堆积层渗透率的研究 新世纪优秀人才支持计划冻土地域天然气水合物基础物性研究 留学回国人员科研启动基金"近期论文
[1]Wang, Dayong,Zheng, Zhanpeng,Ma, Qingsong,Hu, Pei,Huang, Xuehua,Song, Yongchen.Effects of the errors between core heterogeneity and the simplified models on numerical modeling of CO2/water core flooding[J],INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER,2020,149 [2]Shakerian, Mojtaba,Afrough, Armin,Vashaee, Sarah,Marica, Florea,Zhao, Yuechao,Zhao, Jiafei,Song, Yongchen,Balcom, Bruce J..Direct measurement of pore gas pressure and water/gas phase transitions during methane hydrate dissociation[J],MARINE AND PETROLEUM GEOLOGY,2020,116 [3]Liu, Rui,Zhang, Yan,Ling, Zheng,Song, Yongchen.Some new insights into the synergy occurring during char gasification in CO2/H2O mixtures[J],FUEL,2020,268 [4]Chen, Cong,Sun, Jingyue,Zhang, Yi,Mu, Jianshu,Li, Weizhong,Song, Yongchen.Adsorption characteristics of CH4 and CO2 in organic-inorganic slit pores[J],FUEL,2020,265 [5]Liu, Zheyuan,Fu, Jin,Yang, Mingjun,Zhao, Jiafei,Song, Yongchen.New model for particle removal from surface in presence of deformed liquid bridge[J],JOURNAL OF COLLOID AND INTERFACE SCIENCE,2020,562:268-272 [6]Song, Yongchen,Zhao, Changzhong,Chen, Mingkun,Chi, Yuan,Zhang, Yi,Zhao, Jiafei.Pore-scale visualization study on CO2 displacement of brine in micromodels with circular and square cross sections[J],INTERNATIONAL JOURNAL OF GREENHOUSE GAS CONTROL,2020,95 [7]Luo, Tingting,Li, Yanghui,Madhusudhan, B. N.,Zhao, Jiafei,Song, Yongchen.Comparative analysis of the consolidation and shear behaviors of CH4 and CO2 hydrate-bearing silty sediments[J],JOURNAL OF NATURAL GAS SCIENCE AND ENGINEERING,2020,75 [8]Chu, Jiawei,Yang, Lei,Liu, Yu,Song, Yongchen,Yu, Tianho,Lv, Xin,Li, Qingping,Zhao, Jiafei.Pressure pulse wave attenuation model coupling waveform distortion and viscous dissipation for blockage detection in pipeline[J],ENERGY SCIENCE & ENGINEERING,2020,8(1):260-265 [9]Liu, Shezhan,Zhang, Yi,Zhao, Jiafei,Jiang, Lanlan,Song, Yongchen.Dispersion characteristics of CO2 enhanced gas recovery over a wide range of temperature and pressure[J],JOURNAL OF NATURAL GAS SCIENCE AND ENGINEERING,2020,73 [10]Liu Zheyuan,Fu Jin,Yang Mingjun,Zhao Jiafei,Song Yongchen.New model for particle removal from surface in presence of deformed liquid bridge[J],Journal of colloid and interface science,2020,562:268-272 [11]Zhao, Changzhong,Song, Yongchen,Chen, Mingkun,Chi, Yuan,Zhang, Yi.EFFECT OF SALINITY ON THE CAPTURING CO2 CAPABILITIES OF BRINE IN TWO-DIMENSIONAL POROUS MEDIA[A],2019 [12]Zhang, Lunxiang,Kuang, Yangmin,Dai, Sheng,Wang, Jiaqi,Zhao, Jiafei,Song, Yongchen.Kinetic enhancement of capturing and storing greenhouse gas and volatile organic compound: Micro-mechanism and micro-structure of hydrate growth[J],CHEMICAL ENGINEERING JOURNAL,2020,379 [13]Wang, Xin,Dong, Bo,Chen, Cong,Li, Weizhong,Song, Yongchen.Pore-scale investigation on the influences of mass-transfer-limitation on methane hydrate dissociation using depressurization[J],INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER,2019,144 [14]Song, Yongchen,Luo, Tingting,Madhusudhan, B. N.,Sun, Xiang,Liu, Yu,Kong, Xianjing,Li, Yanghui.Strength behaviors of CH4 hydrate-bearing silty sediments during thermal decomposition[J],JOURNAL OF NATURAL GAS SCIENCE AND ENGINEERING,2019,72 [15]Guo, Xianwei,Jinyong, Wang,Wangji,Yu, Tianbo,Yang, Lei,Kuang, Yangmin,Zhao, Jiafei,Song, Yongchen.Effect of thermal properties on the production behavior from water saturated methane hydrate-bearing sediments using depressurization[A],2019,158:5453-5458 [16]Sun, Xiang,Luo, Tingting,Wang, Lei,Wang, Haijun,Song, Yongchen,Li, Yanghui.Numerical simulation of gas recovery from a low-permeability hydrate reservoir by depressurization[J],APPLIED ENERGY,2019,250:7-18 [17]Yu, Tao,Guan, Guoqing,Abudula, Abuliti,Yoshida, Akihiro,Wang, Dayong,Song, Yongchen.Enhanced Gas Recovery from Methane Hydrate Reservoir in the Nankai Trough, Japan[A],2019,158:5213-5218 [18]Sun, Ronghui,Fan, Zhen,Yang, Mingjun,Zhao, Jiafei,Song, Yongchen.In-situ observation of MH formation/decomposition in unconsolidated sands recovered from the South China Sea[A],2019,158:5433-5438 [19]Li, Yanghui,Wu, Zhaoran,Liu, Weiguo,Luo, Tingting,Song, Yongchen.Effect of reformation of gas hydrate on the gas phase permeability of montmorillonite[A],2019,158:5269-5274 [20]Gao, Yi,Ma, Zhanquan,Yang, Mingjun,Song, Yongchen,Lv, Xin.Dissociation Characteristic of Remolded Methane Hydrates Deposits from South China Sea using Depressurization[A],2019,158:5355-5360 [21]Sun, Huiru,Chen, Bingbing,Yang, Mingjun,Yi, Zhang,Song, Yongchen.Promotion of gas hydrate dissociation with seawater flow through the sediment[A],2019,158:5581-5586 [22]Li, Xingbo,Song, Yongchen,Zhao, Jiafei,Liu, Yu,Zhang, Hanquan,Xiao, Bo,Lv, Xin,Yao, Haiyuan,Pang, Weixin,Li, Qingping,Yang, Lei.Non-Embedded Ultrasonic Detection for Pressure Cores of Natural Methane Hydrate-Bearing Sediments[J],ENERGIES,2019,12(10) [23]Wei, Rupeng,Yang, Lei,Zhao, Jiafei,Wang, Ji,Wang, Youle,Ling, Zheng,Li, Yanghui,Yang, Mingjun,Song, Yongchen.Evolution of effective thermal conductivity during hydrate formation and decomposition in natural sediments[A],2019,158:5825-5831 [24]Fu, Jin,Liu, Yu,Zhao, Jiafei,Song, Yongchen,Liu, Zheyuan.A theoretical model for hydrate removal in gas-dominated pipelines[A],2019,158:5349-5354 [25]Luo, Tingting,Li, Yanghui,Liu, Weiguo,Song, Yongchen.Experimental studies on gas production rate of in-situ hydratebearing clay in thermal recovery and depressurization methods[A],2019,158:5251-5256 [26]Ma, Shihui,Zheng, Jia-nan,Lv, Xin,Li, Qingping,Yang, Mingjun,Song, Yongchen.DSC Measurement on Formation and Dissociation Process of Methane Hydrate in Shallow Sediments from South China Sea[A],2019,158:5421-5426 [27]Wang, Bin,Zhao, Jiafei,Song, Yongchen,Lv, Xin,Li, Yuanping,Pang, Weixin,Li, Qingping.Dynamical mechanism of hydrate formation resulting from free gas migration into seeping seafloor sediments[A],2019,158:5329-5335 [28]Chi, Yuan,Zhang, Yi,Li, Guanchu,Zhang, Qian,Zhao, Changzhong,Liu, Shuyang,Yuan, Lei,Liu, Shezhan,Song, Yongchen.CO2/CH4 adsorption property on shale from China for ESGR operation[A],2019,158:5396-5401 [29]Li, Yanghui,Wu, Peng,Liu, Weiguo,Sun, Xiang,Cui, Zhi,Song, Yongchen.A microfocus x-ray computed tomography based gas hydrate triaxial testing apparatus[J],REVIEW OF SCIENTIFIC INSTRUMENTS,2019,90(5):055106 [30]Chen, Bingbing,Yang, Mingjun,Sun, Huiru,Wang, Dayong,Jiang, Lanlan,Song, Yongchen.Visualization study on the promotion of depressurization and water flow erosion for gas hydrate production[A],2019,158:5563-5568 [31]Liu, Zheyuan,Yang, Mingjun,Liu, Yu,Song, Yongchen,Li, Qingping.Analyzing the Joule-Thomson effect on wellbore in methane hydrate depressurization with different back pressure[A],2019,158:5390-5395 [32]Jiang, Lanlan,Wang, Sijia,Abudula, Abuliti,Liu, Yu,Song, Yongchen.The effect of density difference on the development of density-driven convection under large Rayleigh number[J],INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER,2019,139:1087-1095 [33]李洋辉,李洋辉,刘卫国.Effect of reformation of gas hydrate on the gas phase permeability of montmorillonite,The 10th International Conference on Applied Energy (ICAE 2018),2019 [34]Li, Xingbo,Liu, Yu,Jiang, Lanlan,Song, Yongchen.Diffusion Properties for CO2-Brine System under Sequestration Related Pressures with Consideration of the Swelling Effect and Interfacial Area[J],INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH,2018,57(45):15556-15564 [35]Yu, Minghao,Li, Weizhong,Jiang, Lanlan,Wang, Xin,Yang, Mingjun,Song, Yongchen.Numerical study of gas production from methane hydrate deposits by depressurization at 274 K[J],APPLIED ENERGY,2018,227(,SI):28-37 [36]Wang, Bin,Fan, Zhen,Wang, Pengfei,Liu, Yu,Zhao, Jiafei,Song, Yongchen.Analysis of depressurization mode on gas recovery from methane hydrate deposits and the concomitant ice generation[J],APPLIED ENERGY,2018,227(,SI):624-633 [37]Wang, Bin,Dong, Hongsheng,Liu, Yanzhen,Lv, Xin,Liu, Yu,Zhao, Jiafei,Song, Yongchen.Evaluation of thermal stimulation on gas production from depressurized methane hydrate deposits[J],APPLIED ENERGY,2018,227(,SI):710-718 [38]Wang, Pengfei,Wang, Shenglong,Song, Yongchen,Yang, Mingjun.Dynamic measurements of methane hydrate formation/dissociation in different gas flow direction[J],APPLIED ENERGY,2018,227(,SI):703-709 [39]Wang, Xin,Dong, Bo,Li, Weizhong,Yu, Minghao,Song, Yongchen.Microscale effects on methane hydrate dissociation at low temperature in the micro porous media channels by depressurization[J],INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER,2018,122:1182-1197 [40]Yang, Mingjun,Zhou, Hang,Wang, Pengfei,Song, Yongchen.Effects of additives on continuous hydrate-based flue gas separation[J],APPLIED ENERGY,2018,221:374-385 [41]Song, Yongchen,Zhou, Hang,Ma, Shihui,Liu, Weiguo,Yang, Mingjun.CO2 sequestration in depleted methane hydrate deposits with excess water[J],INTERNATIONAL JOURNAL OF ENERGY RESEARCH,2018,42(7):2536-2547 [42]Song, Yongchen,Kuang, Yangmin,Fan, Zhen,Zhao, Yuechao,Zhao, Jiafei.Influence of core scale permeability on gas production from methane hydrate by thermal stimulation[J],INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER,2018,121:207-214 [43]Li, Lin,Tang, Dawei,Song, Yongchen,Jiang, Bo.Dual-film optofluidic microreactor with enhanced light-harvesting for photocatalytic applications[J],CHEMICAL ENGINEERING JOURNAL,2018,339:71-77 [44]Li, Lin,Tang, Dawei,Song, Yongchen,Jiang, Bo,Zhang, Qian.Hydrogen production from ethanol steam reforming on Ni-Ce/MMT catalysts[J],ENERGY,2018,149:937-943 [45]Jiang, Lanlan,Yu, Minghao,Teng, Ying,Yang, Mingjun,Liu, Yu,Li, Weizhong,Song, Yongchen.Displacement and Dissolution Characteristics of CO/Brine System in Unconsolidated Porous Media[J],TRANSPORT IN POROUS MEDIA,2018,122(3):595-609 [46]Teng, Ying,Jiang, Lanlan,Liu, Yu,Wang, Dayong,Song, Yongchen.MRI study on CO2 capillary trap and drainage behavior in sandstone cores under geological storage temperature and pressure[J],INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER,2018,119:678-687 [47]Ling, Zheng,Nicolosi, Valeria,Coleman, Jonathan,Harvey, Andrew,McAteer, David,Godwin, Ian J.,Szydlowska, Beata,Griffin, Aideen,Vega-Mayoral, Victor,Song, Yongchen,Seral-Ascaso, Andres.Quantifying the Role of Nanotubes in Nano:Nano Composite Supercapacitor Electrodes[J],ADVANCED ENERGY MATERIALS,2018,8(8) [48]Chen, Bingbing,Yang, Mingjun,Zheng, Jia-nan,Wang, Dayong,Song, Yongchen.Measurement of water phase permeability in the methane hydrate dissociation process using a new method[J],INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER,2018,118:1316-1324 [49]Liu, Shuyang,Song, Yongchen,Zhao, Changzhong,Zhang, Yi,Lv, Pengfei,Jiang, Lanlan,Liu, Yu,Zhao, Yuechao.The horizontal dispersion properties of CO2-CH4 in sand packs with CO2 displacing the simulated natural gas[J],JOURNAL OF NATURAL GAS SCIENCE AND ENGINEERING,2018,50:293-300 [50]李洋辉,刘卫国,宋永臣.Effect of reformation of gas hydrate on the gas phase permeability of montmorillonite[A],2018 [51]刘卫国,李洋辉,杨明军,赵佳飞,宋永臣.DSC studies of methane hydrate formation and dissociation in water-in-mineral oil emulsions[A],2018 [52]于明豪,李维仲,蒋兰兰,王兴,杨明军,宋永臣.Numerical Studies on Gas Production from Methane Hydrate Deposits by Depressurization at 274 K[J],Applied Energy,2018,27:28-37 [53]李洋辉,刘卫国,宋永臣.Experimental studies on gas production rate of in-situ hydrate-bearing clay in thermal recovery and depressurization methods[A],2018 [54]Zhang, Yi,Chi, Yuan,Zhao, Changzhong,Liu, Yu,Zhao, Yuechao,Jiang, Lanlan,Song, Yongchen.CO2 Adsorption Behavior of Graphite Oxide Modified with Tetraethylenepentamine[J],JOURNAL OF CHEMICAL AND ENGINEERING DATA,2018,63(1):202-207 [55]Liu, Yu,Wang, Pengfei,Yang, Mingjun,Zhao, Yuechao,Zhao, Jiafei,Song, Yongchen.CO2 sequestration in depleted methane hydrate sandy reservoirs[J],JOURNAL OF NATURAL GAS SCIENCE AND ENGINEERING,2018,49:428-434 [56]Lv, Pengfei,Liu, Yu,Chen, Junlin,Jiang, Lanlan,Wu, Bohao,Liu, Shuyang,Song, Yongchen.Pore-scale investigation of effects of heterogeneity on CO2 geological storage using stratified sand packs[J],GREENHOUSE GASES-SCIENCE AND TECHNOLOGY,2017,7(6):972-987 [57]Jiang, Lanlan,Wu, Bohao,Song, Yongchen,Yang, Mingjun,Wang, Dayong,Liu, Yu,Xue, Ziqiu.Mass transfer coefficient measurement during brine flush in a CO2-filled packed bed by X-ray CT scanning[J],INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER,2017,115:615-624 [58]Lv, Pengfei,Song, Yongchen,Liu, Yu,Wang, Bin,Jiang, Lanlan,Wu, Bohao,Liu, Shuyang,Chen, Junlin.Pore-Scale Imaging and Analysis of Phase Topologies and Displacement Mechanisms for CO2-Brine Two-Phase Flow in Unconsolidated Sand Packs[J],WATER RESOURCES RESEARCH,2017,53(11):9127-9144 [59]Han, Dongyan,Wang, Ziming,Song, Yongchen,Zhao, Jiafei,Wang, Dayong.Numerical analysis of depressurization production of natural gas hydrate from different lithology oceanic reservoirs with isotropic and anisotropic permeability[J],JOURNAL OF NATURAL GAS SCIENCE AND ENGINEERING,2017,46:575-591 [60]Wang, Pengfei,Yang, Mingjun,Chen, Bingbing,Zhao, Yuechao,Zhao, Jiafei,Song, Yongchen.Methane hydrate reformation in porous media with methane migration[J],CHEMICAL ENGINEERING SCIENCE,2017,168:344-351 [61]Wang, Dayong,Han, Dongyan,Li, Wenqiang,Zheng, Zhanpeng,Song, Yongchen.Magnetic-resonance imaging and simplified Kozeny-Carman-model analysis of glass-bead packs as a frame of reference to study permeability of reservoir rocks[J],HYDROGEOLOGY JOURNAL,2017,25(5):1465-1476 [62]Wang, Pengfei,Yang, Mingjun,Jiang, Lanlan,Zhao, Yuechao,Song, Yongchen.Effects of Multiple Factors on Methane Hydrate Reformation in a Porous Medium[J],CHEMISTRYSELECT,2017,2(21):6030-6035 [63]Li, Lin,Song, Yongchen,Jiang, Bo,Wang, Kaiqiang,Zhang, Qian.A novel oxygen carrier for chemical looping reforming: LaNiO3 perovskite supported on montmorillonite[J],ENERGY,2017,131:58-66 [64]Zhang, Lunxiang,Kuang, Yangmin,Zhang, Xiaotong,Song, Yongchen,Liu, Yu,Zhao, Jiafei.Analyzing the Process of Gas Production from Methane Hydrate via Nitrogen Injection[J],INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH,2017,56(26):7585-7592 [65]Wang, Bin,Fan, Zhen,Lv, Pengfei,Zhao, Jiafei,Song, Yongchen.Measurement of effective thermal conductivity of hydrate-bearing sediments and evaluation of existing prediction models[J],INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER,2017,110:142-150 [66]Yang, Mingjun,Chong, Zheng Rong,Zheng, Jianan,Song, Yongchen,Linga, Praveen.Advances in nuclear magnetic resonance (NMR) techniques for the investigation of clathrate hydrates[J],RENEWABLE & SUSTAINABLE ENERGY REVIEWS,2017,74:1346-1360 [67]Chen, Cong,Chai, Zhuang,Shen, Weijun,Li, Weizhong,Song, Yongchen.Wettability of Supercritical CO2-Brine-Mineral: The Effects of Ion Type and Salinity[J],ENERGY & FUELS,2017,31(7):7317-7324 [68]Teng, Ying,Jiang, Lanlan,Fan, Yingting,Liu, Yu,Wang, Dayong,Abudula, Abuliti,Song, Yongchen.Quantifying the dynamic density driven convection in high permeability packed beds[J],MAGNETIC RESONANCE IMAGING,2017,39:168-174 [69]Zhao, Yuechao,Song, Yongchen.Experimental investigation on spontaneous counter-current imbibition in water-wet natural reservoir sandstone core using MRI[J],MAGNETIC RESONANCE IN CHEMISTRY,2017,55(6):546-552 [70]Wang, Shenglong,Hu, Sijia,Brown, Erika P.,Nakatsuka, Matthew A.,Zhao, Jiafei,Yang, Mingjun,Song, Yongchen,Koh, Carolyn A..High pressure micromechanical force measurements of the effects of surface corrosion and salinity on CH4/C2H6 hydrate particle-surface interactions[J],PHYSICAL CHEMISTRY CHEMICAL PHYSICS,2017,19(20):13307-13315 [71]Lv, Pengfei,Liu, Yu,Wang, Zhe,Liu, Shuyang,Jiang, Lanlan,Chen, Junlin,Song, Yongchen.In Situ Local Contact Angle Measurement in a CO2-Brine-Sand System Using Microfocused X-ray CT[J],LANGMUIR,2017,33(14):3358-3366 [72]Jiang, Lanlan,Yu, Minghao,Liu, Yu,Yang, Mingjun,Zhang, Yi,Xue, Ziqiu,Suekane, Tetsuya,Song, Yongchen.Behavior of CO2/water flow in porous media for CO2 geological storage[J],MAGNETIC RESONANCE IMAGING,2017,37:100-106 [73]Chen, C.,Zhang, N.,Shen, W. J.,Li, W. Z.,Song, Y. C..Interaction between hydroxyl group and water saturated supercritical CO2 revealed by a molecular dynamics simulation study[J],JOURNAL OF MOLECULAR LIQUIDS,2017,231:185-191 [74]Wang, Bin,Huo, Peng,Luo, Tingting,Fan, Zhen,Liu, Fanglan,Xiao, Bo,Yang, Mingjun,Zhao, Jiafei,Song, Yongchen.Analysis of the Physical Properties of Hydrate Sediments Recovered from the Pearl River Mouth Basin in the South China Sea: Preliminary Investigation for Gas Hydrate Exploitation[J],ENERGIES,2017,10(4) [75]Liu, Yu,Teng, Ying,Jiang, Lanlan,Zhao, Jiafei,Zhang, Yi,Wang, Dayong,Song, Yongchen.Displacement front behavior of near miscible CO2 flooding in decane saturated synthetic sandstone cores revealed by magnetic resonance imaging[J],MAGNETIC RESONANCE IMAGING,2017,37:171-178 [76]Zhao, Jiafei,Song, Yongchen,Lim, Xin-Le,Lam, Wei-Haur.Opportunities and challenges of gas hydrate policies with consideration of environmental impacts[J],RENEWABLE & SUSTAINABLE ENERGY REVIEWS,2017,70:875-885 [77]Liu, Yu,Tang, Jingda,Wang, Mengting,Wang, Qianyi,Tong, Jianing,Zhao, Jiafei,Song, Yongchen.Measurement of Interfacial Tension of CO2 and NaCl Aqueous Solution over Wide Temperature, Pressure, and Salinity Ranges[J],JOURNAL OF CHEMICAL AND ENGINEERING DATA,2017,62(3):1036-1046 [78]Liu, Shuyang,Zhang, Yi,Chi, Yuan,Song, Yongchen,Yang, Mingjun,Liu, Yu,Lv, Pengfei.Density characteristics of CO2-CH4 binary mixtures at temperatures from (300 to 308.15) K and pressures from (2 to 18) MPa[J],JOURNAL OF CHEMICAL THERMODYNAMICS,2017,106:1-9 [79]Yang, Mingjun,Fu, Zhe,Jiang, Lanlan,Song, Yongchen.Gas recovery from depressurized methane hydrate deposits with different water saturations[J],APPLIED ENERGY,2017,187:180-188 [80]Zhang, Lunxiang,Yang, Lei,Wang, Jiaqi,Zhao, Jiafei,Dong, Hongsheng,Yang, Mingjun,Liu, Yu,Song, Yongchen.Enhanced CH4 recovery and CO2 storage via thermal stimulation in the CH4/CO2 replacement of methane hydrate[J],CHEMICAL ENGINEERING JOURNAL,2017,308:40-49 [81]李洋辉,刘卫国,宋永臣.Creep behaviors of frozen clayey sediments containing methane hydrate[A],2017 [82]刘瑜,李洋辉,刘卫国,宋永臣.Experimental study on the creep properties of CO2 hydrate-bearing sediments[A],2017 [83]李维仲,杨明军,蒋兰兰,宋永臣.Numerical Studies of Methane Gas Production from Hydrate Decomposition by Depressurization in Porous Media[J],Energy Procedia,2017,250-255 [84]Chen, Bingbing,Gao, Yi,Yang, Mingjun,Wang, Dayong,Song, Yongchen,Li, Nan.The influence of electric field and peroxide of THF on the THF hydrate formation[A],PROCEEDINGS OF THE 9TH INTERNATIONAL CONFERENCE ON APPLIED ENERGY,2017,142:3956-3961 [85]Wu, Bohao,Li, Xingbo,Mutailipu, Meiheriayi,Yang, Mingjun,Wang, Dayong,Jiang, Lanlan,Song, Yongchen.Saturation comparison of CO2 containing N-2 at different injection velocities and conditions by X-ray CT scanning[A],PROCEEDINGS OF THE 9TH INTERNATIONAL CONFERENCE ON APPLIED ENERGY,2017,142:3350-3355 [86]刘瑜,王大勇,宋永臣.Pore-scale mass transfer experiments in porous media by X-ray CT scanning.[J],Energy Procedia.,2017,105(-):5079-5084 [87]Jiang, Lanlan,Liu, Yu,Teng, Ying,Zhao, Jiafei,Zhang, Yi,Yang, Mingjun,Song, Yongchen.Permeability estimation of porous media by using an improved capillary bundle model based on micro-CT derived pore geometries[J],HEAT AND MASS TRANSFER,2017,53(1):49-58 [88]Zheng, Jia-nan,Yang, Ming-jun,Liu, Yu,Wang, Da-yong,Song, Yong-chen.Effects of cyclopentane on CO2 hydrate formation and dissociation as a co-guest molecule for desalination[J],JOURNAL OF CHEMICAL THERMODYNAMICS,2017,104:9-15 [89]Meiheriayi, Mutailipu,Liu, Yu,Wu, Bohao,Song, Yongchen,Wang, Dayong,Ai, Li.Gas-Water Two Phase Flow Simulation Based on Pore Network Model for Reservoir Rocks[A],PROCEEDINGS OF THE 9TH INTERNATIONAL CONFERENCE ON APPLIED ENERGY,2017,142:3214-3219 [90]Li, Xingbo,Song, Yongchen,Wu, Bohao,Liu, Yu,Jiang, Lanlan.Determination of Swelling Effect in CO2-Brine Systems Using Microfocus X-ray CT[A],PROCEEDINGS OF THE 9TH INTERNATIONAL CONFERENCE ON APPLIED ENERGY,2017,142:3344-3349 [91]Fan, Yinting,Liu, Yu,Teng, Ying,Yang, Mingjun,Jiang, Lanlan,Song, Yongchen.Experimental Study of Density-Driven-Convection Mixing in Hele-Shaw cell[A],PROCEEDINGS OF THE 9TH INTERNATIONAL CONFERENCE ON APPLIED ENERGY,2017,142:3375-3380 [92]李维仲,蒋兰兰,杨明军,宋永臣.Numerical study of gas production from methane hydrate deposits by depressurization at 274 K[J],Applied Energy,2017 [93]Mutailipu, Meiheriayi,Song, Yong-Chen,Liu, Yu,Wang, Da-Yong.Measurements of Contact Angles for CO2-Brine-Berea Sandstones System at Reservoir Conditions[A],MATERIALS IN ENVIRONMENTAL ENGINEERING,2017,1295-1302 [94]吕秋楠,宋永臣,李小森.鼓泡器中环戊烷-甲烷-盐水体系水合物的生成动力学[J],化工进展,2016,35(12):3777-3782 [95]Song, Yongchen,Wang, Pengfei,Wang, Shenglong,Zhao, Jiafei,Yang, Mingjun.Tetrahydrofuran hydrate decomposition characteristics in porous media[J],RUSSIAN JOURNAL OF PHYSICAL CHEMISTRY A,2016,90(12):2377-2382 [96]Zhao, Jiafei,Fan, Zhen,Dong, Hongsheng,Yang, Zhi,Song, Yongchen.Influence of reservoir permeability on methane hydrate dissociation by depressurization[J],INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER,2016,103:265-276 [97]Lu, Guohuan,Liu, Yu,Jiang, Lanlan,Ying, Teng,Song, Yongchen,Wu, Bohao.Study of density driven convection in a Hele-Shaw cell with application to the carbon sequestration in aquifers[A],13th International Conference on Greenhouse Gas Control Technologies(GHGT),2016,114:4303-4312 [98]Lv, Pengfei,Wang, Zhe,Liu, Yu,Song, Yongchen,Jiang, Lanlan,Wu, Bohao,Teng, Ying,Lu, Guohuan.The Influence of Heterogeneity in Wettability and Pore Structure in CO2 Geological Sequestration: A Pore-scale Study[A],13th International Conference on Greenhouse Gas Control Technologies(GHGT),2016,114:4975-4980 [99]Wu, Bohao,Jiang, Lanlan,Liu, Yu,Lyu, Pengfei,Wang, Dayong,Li, Xingbo,Song, Yongchen.An Experimental Study on the Influence of CO2 containing N-2 on CO2 sequestration by X-ray CT scanning[A],13th International Conference on Greenhouse Gas Control Technologies(GHGT),2016,114:4119-4128 [100]Jiang, Lanlan,Xue, Ziqiu,Park, Hyuck,Song, Yongchen.The effect of water flushing on CO2 concentration around injection well as identified through laboratory study[A],13th International Conference on Greenhouse Gas Control Technologies(GHGT),2016,114:4896-4901 [101]Jiang, Bo,Dou, Binlin,Wang, Kaiqiang,Song, Yongchen,Chen, Haisheng,Zhang, Chuan,Xu, Yujie,Li, Mengjue.Hydrogen production from chemical looping steam reforming of glycerol by Ni based Al-MCM-41 oxygen carriers in a fixed-bed reactor[J],FUEL,2016,183:170-176 [102]Liu, Weiguo,Wu, Zhaoran,Li, Yanghui,Song, Yongchen,Ling, Zheng,Zhao, Jiafei,Lv, Qin.Experimental study on the gas phase permeability of methane hydrate-bearing clayey sediments[J],JOURNAL OF NATURAL GAS SCIENCE AND ENGINEERING,2016,36:378-384 [103]Zhao, Yuechao,Wang, Tonglei,Song, Yongchen,Liu, Yu,Dong, Bo,Zhu, Ningjun.Visualization of asphaltene deposition effects on porosity and permeability during CO2 flooding in porous media[J],JOURNAL OF VISUALIZATION,2016,19(4):603-614 [104]Luo, Tingting,Song, Yongchen,Zhu, Yiming,Liu, Weiguo,Liu, Yu,Li, Yanghui,Wu, Zhaoran.Triaxial experiments on the mechanical properties of hydrate-bearing marine sediments of South China Sea[J],MARINE AND PETROLEUM GEOLOGY,2016,77:507-514 [105]Song, Yongchen,Zhu, Yiming,Liu, Weiguo,Li, Yanghui,Lu, Yan,Shen, Zhitao.The effects of methane hydrate dissociation at different temperatures on the stability of porous sediments[J],JOURNAL OF PETROLEUM SCIENCE AND ENGINEERING,2016,147:77-86 [106]Jiang, Bo,Zhang, Chuan,Wang, Kaiqiang,Dou, Binlin,Song, Yongchen,Chen, Haisheng,Xu, Yujie.Highly dispersed Ni/montmorillonite catalyst for glycerol steam reforming: Effect of Ni loading and calcination temperature[J],APPLIED THERMAL ENGINEERING,2016,109:99-108 [107]Chen, Cong,Zhang, Ning,Li, Weizhong,Song, Yongchen.Hydrogen bonds at silica-CO2 saturated water interface under geologic sequestration conditions[J],MOLECULAR PHYSICS,2016,114(20):2924-2935 [108]李洋辉,宋永臣,刘卫国,凌铮.天然气水合物沉积物体变实验本科教学探索[J],实验室研究与探索,2016,35(10):182-184,195 [109]Dong, Hongsheng,Fan, Zhen,Wang, Bin,Xue, Shuang,Zhao, Jiafei,Song, Yongchen.Hydrate-based reduction of heavy metal ion from aqueous solution[A],8th International Conference on Applied Energy (ICAE),2016,105:4706-4712 [110]Yu, Minghao,Li, Weizhong,Yang, Mingjun,Jiang, Lanlan,Song, Yongchen.Numerical Studies of Methane Gas Production from Hydrate Decomposition by Depressurization in porous media[A],8th International Conference on Applied Energy (ICAE),2016,105:250-255 [111]Lv, Pengfei,Wang, Zhe,Liu, Yu,Dong, Hongsheng,Jiang, Lanlan,Song, Yongchen,Wu, Bohao,Liu, Shuyang.Pore-scale displacement mechanisms investigation in CO2-brine-glass beads system[A],8th International Conference on Applied Energy (ICAE),2016,105:4122-4127 [112]Ai, Li,Zhao, Jiafei,Wang, Jiaqi,Song, Yongchen.Analyzing permeability of the irregular porous media containing methane hydrate using pore network model combined with CT[A],8th International Conference on Applied Energy (ICAE),2016,105:4802-4807 [113]Wang, Bin,Dong, Hongsheng,Fan, Zhen,Zhao, Jiafei,Song, Yongchen.Gas production from methane hydrate deposits induced by depressurization in conjunction with thermal stimulation[A],8th International Conference on Applied Energy (ICAE),2016,105:4713-4717 [114]Teng, Ying,Lu, Guohuan,Fan, Yinting,Liu, Yu,Jiang, Lanlan,Wang, Dayong,Song, Yongchen.Experimental study of density-driven convection in porous media by using MRI[A],8th International Conference on Applied Energy (ICAE),2016,105:4210-4215 [115]Wu, Bohao,Jiang, Lanlan,Liu, Yu,Lv, Pengfei,Wang, Dayong,Song, Yongchen.Pore-scale mass transfer experiments in porous media by X-ray CT scanning[A],8th International Conference on Applied Energy (ICAE),2016,105:5079-5084 [116]Wang, Zeng,Liu, Weiguo,Li, Yanghui,Song, Yongchen,Yang, Mingjun,Wang, Lei.Influence of Porous Media on Methane Hydrate Formation from Ice Powders[A],8th International Conference on Applied Energy (ICAE),2016,105:224-229 [117]Luo, Tingting,Liu, Weiguo,Li, Yanghui,Song, Yongchen,Wu, Qi,Wu, Zhaoran.Mechanical properties of Stratified hydrate-bearing sediments[A],8th International Conference on Applied Energy (ICAE),2016,105:200-205 [118]Zhang, Yi,Chi, Yuan,Xing, Wanli,Liu, Shuyang,Song, Yongchen.Competitive adsorption/desorption of CH4/CO2/N-2 mixture on anthracite from China for ECBM operation[A],8th International Conference on Applied Energy (ICAE),2016,105:4289-4294 [119]Wang, Pengfei,Wang, Shenglong,Song, Yongchen,Yang, Mingjun.Methane Hydrate Formation and Decomposition Properties during Gas Migration in Porous Medium[A],8th International Conference on Applied Energy (ICAE),2016,105:4668-4673 [120]Fan, Zhen,Sun, Chaomin,Kuang, Yangmin,Wang, Bin,Zhao, Jiafei,Song, Yongchen.MRI analysis for methane hydrate dissociation by depressurization and the concomitant ice generation[A],8th International Conference on Applied Energy (ICAE),2016,105:4763-4768 [121]Zheng, Jia-nan,Yang, Mingjun,Chen, Bingbing,Song, Yongchen,Wang, Dayong.Research on the CO2 gas uptake of different hydrate structures with cyclopentane or methyl-cyclopentane as co-guest molecules[A],8th International Conference on Applied Energy (ICAE),2016,105:4133-4139 [122]张川,豆斌林,蒋博,杨明军,宋永臣.蒙脱石负载纳米镍甘油水蒸气重整制氢[J],大连理工大学学报,2016,56(5):454-456 [123]Zhang, Yi,Wang, Lulu,Liu, Shuyang,Song, Yongchen,Liu, Yu,Jiang, Lanlan.Density and Volumetric Behavior of CO2 + Undecane System from 313.15 to 353.15 K and Pressures up to 19 MPa[J],JOURNAL OF CHEMICAL AND ENGINEERING DATA,2016,61(9):3003-3012 [124]Lv, Pengfei,Liu, Yu,Jiang, Lanlan,Song, Yongchen,Huang, Qingxun.Pore-scale contact angle measurements of CO2-brine-glass beads system using micro-focused X-ray computed tomography[J],MICRO & NANO LETTERS,2016,11(9):524-527 [125]Wang, Shanrong,Yang, Mingjun,Liu, Weiguo,Zhao, Jiafei,Song, Yongchen.Investigation on the induction time of methane hydrate formation in porous media under quiescent conditions[J],JOURNAL OF PETROLEUM SCIENCE AND ENGINEERING,2016,145:565-572 [126]Teng, Ying,Liu, Yu,Jiang, Lanlan,Song, Yongchen,Zhao, Jiafei,Zhang, Yi,Wang, Dayong.A visualization study on two-phase gravity drainage in porous media by using magnetic resonance imaging[J],MAGNETIC RESONANCE IMAGING,2016,34(7):855-863 [127]Yang, Lei,Zhao, Jiafei,Wang, Bin,Liu, Weiguo,Yang, Mingjun,Song, Yongchen.Effective thermal conductivity of methane hydrate-bearing sediments: Experiments and correlations[J],FUEL,2016,179:87-96 [128]Jiang, Bo,Dou, Binlin,Wang, Kaiqiang,Zhang, Chuan,Song, Yongchen,Chen, Haisheng,Xu, Yujie.Hydrogen production by chemical looping steam reforming of ethanol using NiO/montmorillonite oxygen carriers in a fixed-bed reactor[J],CHEMICAL ENGINEERING JOURNAL,2016,298(298):96-106 [129]Wang, Kaiqiang,Dou, Binlin,Jiang, Bo,Song, Yongchen,Zhang, Chuan,Zhang, Qian,Chen, Haisheng,Xu, Yujie.Renewable hydrogen production from chemical looping steam reforming of ethanol using xCeNi/SBA-15 oxygen carriers in a fixed-bed reactor[J],INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,2016,41(30):12899-12909 [130]Song, Yongchen,Wang, Shenglong,Jiang, Lanlan,Zhang, Yi,Yang, Mingjun.HYDRATE PHASE EQUILIBRIUM FOR CH4-CO2-H2O SYSTEM IN POROUS MEDIA[J],CANADIAN JOURNAL OF CHEMICAL ENGINEERING,2016,94(8):1592-1598 [131]Jiang, Lanlan,Zhou, Xinhuan,Liu, Yu,Song, Yongchen,Zhao, Yuechao,Wu, Bohao,Teng, Ying.Noninvasive temperature and velocity mapping using magnetic resonance imaging[J],JOURNAL OF VISUALIZATION,2016,19(3):403-415 [132]Li, Yanghui,Liu, Weiguo,Song, Yongchen,Yang, Mingjun,Zhao, Jiafei.Creep behaviors of methane hydrate coexisting with ice[J],JOURNAL OF NATURAL GAS SCIENCE AND ENGINEERING,2016,33:347-354 [133]Yang, Mingjun,Jing, Wen,Zhao, Jiafei,Ling, Zheng,Song, Yongchen.Promotion of hydrate-based CO2 capture from flue gas by additive mixtures (THF (tetrahydrofuran) plus TBAB (tetra-n-butyl ammonium bromide))[J],ENERGY,2016,106:546-553 [134]赵越超,沈子鉴,陈俊霖,汤凌越,刘瑜,宋永臣.Micro-CT技术在多孔介质两相流动实验研究中的应用[J],实验室科学,2016,19(3):7-12,15 [135]Yang, Mingjun,Song, Yongchen,Liu, Yu,Jiang, Lanlan,Zhao, Yuechao.Thermodynamic characters of N2/CO2hydrates in marine sediment[A],26th Annual International Ocean and Polar Engineering Conference, ISOPE 2016,2016,2016-January:25-29 [136]Liu, Yu,Teng, Ying,Lu, Guohuan,Jiang, Lanlan,Zhao, Jiafei,Zhang, Yi,Song, Yongchen.Experimental study on CO2 diffusion in bulk n-decane and n-decane saturated porous media using micro-CT[J],FLUID PHASE EQUILIBRIA,2016,417:212-219 [137]Lv, Pengfei,Liu, Yu,Jiang, Lanlan,Song, Yongchen,Wu, Bohao,Zhao, Jiafei,Zhang, Yi.Experimental determination of wettability and heterogeneity effect on CO2 distribution in porous media[J],GREENHOUSE GASES-SCIENCE AND TECHNOLOGY,2016,6(3):401-415 [138]Chen, Cong,Dong, Bo,Zhang, Ning,Li, Weizhong,Song, Yongchen.Pressure and Temperature Dependence of Contact Angles for CO2/Water/Silica Systems Predicted by Molecular Dynamics Simulations[J],ENERGY & FUELS,2016,30(6):5027-5034 [139]Liu, Weiguo,Luo, Tingting,Li, Yanghui,Song, Yongchen,Zhu, Yiming,Liu, Yu,Zhao, Jiafei,Wu, Zhaoran,Xu, Xiaohu.Experimental study on the mechanical properties of sediments containing CH4 and CO2 hydrate mixtures[J],JOURNAL OF NATURAL GAS SCIENCE AND ENGINEERING,2016,32:20-27 [140]Zhao, Yuechao,Chen, Junlin,Yang, Mingjun,Liu, Yu,Song, Yongchen.A rapid method for the measurement and estimation of CO2 diffusivity in liquid hydrocarbon-saturated porous media using MRI[J],MAGNETIC RESONANCE IMAGING,2016,34(4):437-441 [141]Zhang, Lunxiang,Zhao, Jiafei,Dong, Hongsheng,Zhao, Yuechao,Liu, Yu,Zhang, Yi,Song, Yongchen.Magnetic resonance imaging for in-situ observation of the effect of depressurizing range and rate on methane hydrate dissociation[J],CHEMICAL ENGINEERING SCIENCE,2016,144:135-143 [142]Yang, M.,Song, Y.,Jiang, L.,Zhao, Y.,Wang, S.,Zhao, J..A TEMPERATURE-MAPPING METHOD FOR TETRAHYDROFURAN HYDRATE FORMATION IN POROUS MEDIA[J],EXPERIMENTAL HEAT TRANSFER,2016,29(2):205-220 [143]Wang, Dayong,Qiao, Juan,Zhou, Heng,Li, Wenqiang,Song, Yongchen.Numerical Analysis of CO2 and Water Displacement in Natural Rock Cores Based on a Fully Heterogeneous Model[J],JOURNAL OF HYDROLOGIC ENGINEERING,2016,21(3) [144]Dou, Binlin,Wang, Kaiqiang,Jiang, Bo,Song, Yongchen,Zhang, Chuan,Chen, Haisheng,Xu, Yujie.Fluidized-bed gasification combined continuous sorption-enhanced steam reforming system to continuous hydrogen production from waste plastic[J],INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,2016,41(6):3803-3810 [145]Song, Yongchen,Dong, Hongsheng,Yang, Lei,Yang, Mingjun,Li, Yanghui,Ling, Zheng,Zhao, Jiafei.Hydrate兼任中国能源学会副理事长,中国工程热物理学会常务理事,国家自然科学基金委专家评审组成员,教育部科技委地学与资源环境学部委员,教育部能源动力类专业教指委委员。 相关热点
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