部分学术论文(第一作者或通讯作者) [1] Zhiguo Tang, Feng Deng, Zhijian Zhao, et al. Study of flow and heat transfer characteristics of a liquid jet impinging on a heat sink with discontinuous staggered ring ribs [J]. International Journal of Heat and Mass Transfer, 2022, 190:122757. (JCR Q1, Top Journal, IF=5.431) [2] Zhiguo Tang, Feng Deng, Yongtao Ji, et al. Structure optimization and cooling performance of a heat sink with discontinuous arc protrusions impacted by nanofluid slit jet impinging[J]. International Journal of Numerical Methods for Heat and Fluid Flow, 2022. DOI: 10.1108/HFF-06-2022-0363. (JCR Q1, IF=5.181) [3] Zhiguo Tang, Renchen Zhao, Chao Yin, et al.Study on heat transfer characteristics and stability of subcooled flow boiling in a novel bottom-diverging microchannel with equal cross-sectional area[J]. Heat Transfer Research, 2022. DOI:10.1615/HeatTransRes.2022045172. (JCR Q3, IF=2.197) [4] Zhiguo Tang, Zhijian Zhao, Chao Yin,et al.Orthogonal optimization of a liquid cooling structure with straight microtubes and variable heat conduction blocks for battery module[J]. Journal of Energy Engineering, 2022, 148(3): 04022017. (JCR Q3, IF=1.961) [5] Jianping Cheng, shenlong Shuai,Zhiguo Tang*, Tao changfa*. Thermal performance analysis of a lithium-ion battery thermal management system with a vapor chamber and minichannel cold plate[J]. Applied Thermal Engineering, 2022, DOI: 10.1016/j.applthermaleng.2022.119694.(JCR Q1, Top Journal, IF=6.465) [6] Jianping Cheng, Hongsen Xu,Zhiguo Tang*, Pei Zhou*. Multi-objective optimization of manifold microchannel heat sink with bionic corrugated bottom impacted by nanofluid jet[J]. International Journal of Heat and Mass Transfer, 2023, 201, 123634.(JCR Q1, Top Journal, IF=5.431) [7] Jianping Cheng, Shenlong Shuai,Zhiguo Tang*. Numerical analysis of heat-pipe-based battery thermal management system for prismatic lithium-ion batteries[J].Journal of Thermal Science and Engineering Applications (ASME), 2022,14:081008. (JCR Q4, IF=1.879) [8] Jianping Cheng, shenlong Shuai,Zhiguo Tang*, Shuheng Hu. Effect of nitrate concentration on the coupling process of electricity generation and nitrate removal in biocathode microbial fuel cells[J]. Journal of Environmental Engineering, 2022, 185(5):04022013. (JCR Q4, IF=2.479) [9] Zhiguo Tang, Zhiqing Liu, Jie Li, et al. A Lightweight Liquid Cooling Thermal Management Structure for Prismatic Batteries[J].Journal of Energy Storage, 2021, 42(2):103078. (JCR Q1, IF=8.907) [10] Zhiguo Tang, Zhiqing Liu, Renchen Zhao, et al.Investigation on the thermal management performance of a parallel liquid cooling structure for prismatic batteries[J].Journal of Electrochemical Energy Conversion and Storage, 2021, 19:021002. (JCR Q4, IF=2.323) [11] Zhiguo Tang, Jie Li, Zhiqing Liu, et al. Thermal performance of a thermal management system with a thin plate and a slender tube for prismatic batteries[J]. International Journal of Energy Research, 2021,45(4) : 5347-5358.. (JCR Q1, Top Journal, IF=4.672) [12] Zhiguo Tang, Feng Deng, Shoucheng Wang, et al. Numerical simulation of flow and heat transfer characteristics of a liquid jet impinging on a cylindrical cavity heatsink[J]. Journal of Applied Fluid Mechanics, 2021,14(3): 723-732. (JCR Q4, IF=1.152) [13] Zhiguo Tang, Shoucheng Wang, Zhiqing Liu, et al. Numerical analysis of temperature uniformity of a liquid cooling battery module composed of heat-conducting blocks with gradient contact angles[J]. Applied Thermal Engineering, 2020,178(9):115509. (JCR Q1, Top Journal,IF=6.465) [14] Zhiguo Tang, Anqi Song, Shoucheng Wang, et al. Numerical analysis of heat transfer mechanism of thermal runaway propagation for cylindrical lithium-ion cells inbattery module [J]. Energies, 2020, 13, 1010. (JCR Q3,IF=3.252) [15] Zhiguo Tang, Feng Zhang, Shoucheng Wang, et al. Liquid impingement flow and heat transfer of a cone heat sink with fillet profiles[J]. Journal of Fluids Engineering – Transactions of the ASME, 2020, 142(8): 081207. (JCR Q3,IF=1.998) [16] Zhiguo Tang, Qin Gao, Jie Li, et al. Numerical analysis of temperature uniformity of liquid cooling based battery module with incremental heat transfer area[J].Journal of Thermal Science and Engineering Applications(ASME)2020,12(10):051006. (JCR Q4,IF=1.879) [17] Changfa Tao, Qingpan Ye, Chunmei Wang,Zhiguo Tang*. An experimental investigation on the burning behaviors of 18650 lithium ion batteries after different immersion times[J]. Journal of Cleaner Production, 2020, 242:1-10. (JCR Q1,Top Journal,IF=9.556) [18] Zhiguo Tang, Hai Li, Feng Zhang, et al. Numeriacl study of liquid jet impingement flow and heat transfer of a cone heat sink[J]. International Journal of Numerical Methods for Heat and Fluid Flow,2019, 29 (11): 4074-4092. (JCR Q1, IF=5.181) [19] Zhiguo Tang, Xiaoteng Min, Anqi Song, et al. Thermal management of a cylindrical lithium-ion battery module with an M-shaped serpentine multi-channel flat tube[J]. Journal of Energy Engineering, 2019, 145(1): 04018072. (JCR Q3,IF=1.961) [20] Zhiguo Tang, Qingqing Liu, Hai Li, et al. Numerical Simulation of Heat Transfer Characteristics of Jet Impingement with a Novel Single Cone Heat Sink[J]. Applied Thermal Engineering, 2017, 127(25): 906-914. (JCR Q1,Top Journal,IF=6.465) [21] Tang Zhiguo, Lin Qizhao, Mellander Bengt-Erik,et al. SDC-LiNa carbonate composite and nanocomposite electrolytes[J]. International Journal of Hydrogen Energy, 2010, 35(7): 2970-2975. (JCR Q2, Top Journal, IF=7.139) [22] 李 海,唐志国*,高钦,等.空气射流冷却圆锥热沉的传热特性分析[J].中国科学技术大学学报,2020, 50(5): 551-558(EI) [23] 闵小滕,唐志国*,高钦,等.基于微小通道波形扁管的圆柱动力电池液冷模组散热特性分析[J].浙江大学学报,2019,53(3):463-469(EI) [24] 唐志国,张丹阳,刘轻轻,等.基于正交法的生物质焦油中苯酚气化制氢研究[J].太阳能学报,2018, 39(3):850-856(EI) [25] 周 嘉,唐志国*,闵小滕,等.微小单锥体热沉射流流动及换热特性研究[J].工程热物理学报,2017, 38(11):2399-2407(EI) [26] 马鹏程,唐志国*,刘轻轻,等.新型单圆锥体热沉单孔射流散热数值模拟[J].机械工程学报,2016,52(24):136-141(EI) 部分发明专利(第一发明人) [1] 唐志国,赵智健,童身亮,等.一种均温分布式平行微细流道换热器及其应用[P].发明专利授权号ZL202110903682.7,授权日期2022.08.12(联合企业申请) [2] 唐志国,李杰,孔德垚,等.一种管板式热管型动力电池热管理模组结构[P].发明专利授权号ZL201911239787.6,授权日期2021.03.02 [3] 唐志国,张峰,高钦,等.一种微小通道射流散热器[P].发明专利授权号ZL201910126762.9,授权日期2020.11.06(已转化转移) [4] 唐志国,闵小滕,李海,等.一种动力电池液冷成组箱[P].发明专利授权号ZL201611241235.5,授权日期2019.03.08(已转化转移) [5] 唐志国,楚金甫,陈西山,等.一种带有液冷箱电动汽车动力电池及液冷箱[P].发明专利授权号ZL201610544342.9,授权日期2019.04.26(联合企业申请) [6] 唐志国,周嘉,闵小滕,等.动力电池热控箱体[P].发明专利授权号ZL201610326139.4,授权日期2018.11.06(已转化转移) [7] 唐志国,马鹏程,刘轻轻,等.一种多通道液流温控导热板[P].发明专利授权号ZL201610326136.0,授权日期2018.02.27(已转化转移) [8] 唐志国,张丹阳,王元哲,等.一种电子器件液冷散热系统[P].发明专利授权号ZL201410150370.3,授权日期2017.02.15(已转化转移) [9] 唐志国,江超,郝嘉欣,等.一种基于热管电动汽车动力电池组温控系统[P].发明专利授权号ZL201410159036.2,授权日期2016.05.11(已转化转移) [10] 唐志国,夏顺礼,赵久志,等.一种电池组箱体[P].发明专利授权号ZL201410055317.5,授权日期2015.12.02(联合企业申请) [11] 唐志国,余勇辉,陈晨,等.生物质气化焦油分离并循环裂解转化装置[P].发明专利授权号ZL201110275961.X,授权日期2013.07.31 [12] 唐志国,程建萍,马培勇.分布式天然气制氢反应器[P].发明专利授权号ZL201010259263,授权日期2012.07.25 [13] 唐志国,唐超君,邢献军,等.一种干煤粉气流床气化炉[P].发明专利授权号ZL200810021324.8,授权日期2011.06.22 [14] 唐志国,程建萍,陈长琦.两段式干煤粉气流床气化炉[P].发明专利授权号ZL200810195490.X,授权日期2011.11.23 [15] 唐志国,程建萍,陈长琦,等.小型高效自热式天然气制氢设备[P].发明专利授权号ZL200910116565.5,授权日期2011.04.06 [16] 唐志国,程建萍.生物质制取洁净富氢燃料气的装置[P].发明专利授权号ZL200910116564.0,授权日期2010.12.08 [17] 唐志国,陆宽,陆海阳,等.一种基于柔性微小多孔扁管的动力电池液冷模块[P].发明专利公开号CN114696003A,公开日期2022.07.01 [18] 唐志国,项毅,武一凡,等.一种微小射流均温低阻冷却板[P].发明专利公开号CN114667040A,公开日期2022.06.24 [19] 唐志国,孙然,王嘉辉,等.一种微小双通道螺旋型沸腾换热式均温冷却板[P].发明专利公开号CN114449871A,公开日期2022.05.06 [20] 唐志国,季永涛,帅深龙,等.一种微小多通道流体相变式均温换热板[P].发明专利公开号CN114608364A,公开日期2022.06.10 [21] 唐志国,印超,邓峰,等.一种微小多通道沸腾换热式均温冷却板[P].发明专利公开号CN114577042A,公开日期2022.06.03 [22] 唐志国,赵智健,王嘉辉,等.一种出口渐缩型微小通道的射流冷板[P].发明专利公开号CN113438872A,公开日期2021.09.24 [23] 唐志国,赵仁陈,赖鹏辉,等.一种基于脉动热管的圆柱电池热管理模块[P].发明专利公开号CN112382805 A,公开日期2021.02.19 [24] 唐志国,刘志清,孔德垚,等.一种基于液体金属的动力电池热管理模组[P].发明专利公开号CN111525062A,公开日期2020.08.11 [25] 唐志国,王守成,李杰,等.富氢燃料气低污染燃烧的燃气空气预混器[P].发明专利公开号CN110388643A,公开日期2019.10.29 [26] 唐志国,宋安琪,黎昱杰,等.一种可阻止热失控扩展的圆柱动力电池液冷热管理结构[P].发明专利公开号CN 109686887A,公开日期2019.04.26 |