个人简介
郑青榕:博士,教授,博士研究生导师。2002年8月博士毕业于上海交通大学制冷与低温工程研究所,2007年入选“福建省高校新世纪优秀人才支持计划”,中国可再生能源学会氢能专业委员会会员。
教育经历
1) 1998/09 - 2002/08,上海交通大学,制冷与低温工程研究所,博士
2) 1995/09 - 1998/04,上海海运学院,商船学院,硕士
3) 1985/09 - 1988/07,集美航海专科学校,轮机系,专科生
科研与学术工作经历
1) 2011.09 – 至今,集美大学,轮机工程学院,教授
2) 2008.06 – 2011.08,集美大学,轮机工程学院,副教授
3) 2007.11 – 2008.05,昆士兰大学,化学工程系,访问学者
4) 2004.11 – 2005.04,日本产业技术综合研究所,特别研究员
5) 2002.10 – 2004.10,上海交通大学,核科学与技术博士后流动站,博士后
6) 1988.07 – 1995.09,广州远洋运输公司,杂货船运输部,二管轮
研究方向
1) 氢能在船舶中的应用。(1)高效复合储氢材料结构设计与制备;(2)氢燃料电池电力推进船舶的船型结构优化。
2) 天然气存储技术。(1)载运工具用吸附式天然气储存技术;(2)载运工具用天然气水合物储存技术;(3)ANG用新型吸附剂研制。
3) 船舶节能技术。(1)船舶余热制冷技术;(2)船舶余热吸附除油技术。
代表性科研项目
[1] 福建省自然科学基金面上项目,2024J01713,基于碳基复合材料@MOFs限域协同溢流的船用氢化铝可逆储放氢研究,2024.11.01-2027.11.01,主持,在研
[2] 厦门市科技计划项目,3502Z20226011,基于太阳能/风能电解水制氢与燃料电池储能的船用混合动力系统研制,2021.7.1-2024.7.31,主持,在研
[3] 国家自然科学基金面上项目,51979121,过渡金属@活性炭@Al@MOFs的船用复合材料储氢机制调控,2020.01-2023.12,主持,结题
[4] 福建省自然科学基金重点项目,2020J02041,基于过渡金属与碳基材料调控的船用MOFs-Al复合材料储氢机制的研究,2020/08-2023/8,主持,结题
[5] 厦门市科技计划项目,3502Z20173026,典型船舶燃料电池推进系统研制,2017/05-2020/02,主持,结题
[6] 福建省自然科学基金,2015J01216,基于过渡金属溢流与镁系合金纳米化的船用复合储氢材料结构设计与储氢机制调控,2015/04-2018/06,主持,结题
[7] 中国博士后科学基金,2003034260,碳纳米材料最佳储氢温度研究,2003/06-2004/10,主持,结题
[8] 福建省科技专项,JK2010030,活性炭、催化金属及镁系合金复合材料储氢特性研究,2010/09-2013/10,主持,结题
[9] 福建省教育厅科技项目,JA08148,车用氢燃料碳基材料吸附储存研究2008/10-2010/09,主持,结题
[10] 福建省高等学校新世纪优秀人才计划,Z80136,复合储氢材料研究,2008/01-2011/12,主持,结题
[11] 福建省自然科学基金,2006F3092,车用氢燃料活性炭吸附储存研究,2006/11-2008/11,主持,结题
代表性论文(第一/通讯作者)
[1] Mengbo Wu, Qingrong Zheng*. Effect of the incorporation of GO on the adsorption performance of hydrogen on ZIF-8 composites for on board applications: By DFT calculations and experiments, International Journal of Hydrogen Energy, 2025, 115: 81-92. WOS:001444309500001.
[2] Mengbo Wu, Qingrong Zheng*. Evaluation of storage performance of hydrogen adsorption on typical kinds of MOFs for ship's PEMFC power units: By GCMC, numerical simulations and experiments, Journal of Energy Storage, 2025, 106: 114889. WOS:001375534100001
[3] Hu Wang, Qingrong Zheng*, Structural modification and heat transfer enhancement on HKUST-1 for adsorbed natural gas, Chin J Chem Eng, 2025, 79:109-119. WOS:001443706500001
[4] Baifeng Yang, Qingrong Zheng*, Shenhua Yang, Analysis of discharging characteristics of the storage system by adsorption for boil off gas (BOG) from onboard LNG, Chin J Chem Eng, 2025, 79:62-71. WOS:001441595100001
[5] Mengbo Wu, Qingrong Zheng*, Shanshan Li, Dong Guo, Hu Wang, Effect of precooling the in-charged on the performance of hydrogen storage systems packed with typical kinds of adsorbents, Cryogenics, 2024, 140: 103852. WOS:001238806600001
[6] Hu Wang, Qingrong Zheng*, Xuan Zhang, Mengbo Wu, Development of HKUST-1 composites for methane storage by adsorption through incorporation and carbonization, Results in Engineering, 2023, 18: 101098. EI 20231613892929
[7] Mengbo Wu, Qingrong Zheng*, Tingquan Sun, Xuan Zhang, Analysis of heat conducting enhancement measures on the composite for hydrogen storage by incorporation of activated carbon with MOFs, International Journal of Hydrogen Energy, 2023, 48(10):3994-4005. WOS:000921053300001
[8] Xuan Zhang, Qingrong Zheng∗, Hongzhou He, Synergistic effect of hydrogen spillover and nano-confined AlH3 on room temperature hydrogen storage in MOFs: By GCMC, DFT and experiments, Int J Hydrogen Energy, 2024, 72: 1224-1235. WOS:001258589300001.
[9] Xuan Zhang, Qingrong Zheng*, Hongzhou He. Machine-learning-based prediction of hydrogen adsorption capacity at varied temperatures and pressures for MOFs adsorbents, Journal of the Taiwan Institute of Chemical Engineers 138 (2022) 104479. WOS:000848327600001
[10] Hao Chen, Qing-rong Zheng*, Mengbo Wu, et al. Development of carbon based composites for filtering elements used on bilge’s oily water treatment units, Results in Engineering 15 (2022) 100511. EI 20222612293833
[11] Xuan Zhang, Qingrong Zheng*, Hongzhou He. Multicomponent adsorptive separation of CO2, CH4, N2, and H2 over M-MOF-74 and AX-21@M-MOF-74 composite adsorbents, Microporous and Mesoporous Materials, 2022, 336:111899. WOS:000793645400002
[12] Xuan Zhang, Qingrong Zheng*, Hongzhou He, Zhonggang Zhang, Di Sun, Development of cryo-adsorption hydrogen storage systems for ship's PEMFC power units, Cryogenics, 2022, 121:103412. WOS:000734371500010
[13] Xuan Zhang, Qingrong Zheng*, Hongzhou He, Tingquan Sun, Zhonggang Zhang, Investigation of the densification and heat conducting enhancement measures on MIL-101 and its composite for hydrogen storage by adsorption, International Journal of Hydrogen Energy, 2022, 47(17): 9958-9968. WOS:000760310900011
[14] Qingrong Zheng*, Weidong Zhang, Xuan Zhang, Mengbo Wu, Shengping Liao. Evaluation of the effects of heat conducting enhancement measures on MOFs hydrogen storage system for ship's propulsion plant, International Journal of Hydrogen Energy, 2021, 46(35): 18412-18422. WOS:000648404500003
[15] Xuan Zhang, Qingrong Zheng*, Guobin Zhao, Weidong Zhang. Adsorption equilibrium and charge/discharge characteristics of hydrogen on MOFs, Cryogenics, 112(2020)103121. WOS:000605608900011
[16] Guobin Zhao, Qingrong Zheng*, Xuan Zhang,et al. Adsorption equilibrium and the effect of honeycomb heat exchanging device on charge/discharge characteristic of methane on MIL-101(Cr) and activated carbon. Chin J Chem Eng, 2020, 28(7):1964-1972. WOS:000566748300026
[17] Qingrong Zheng, Ziwen Zhu, Jian Chen, Wensheng Yu, Preparation of carbon based getter for glass fiber core vacuum insulation panels (VIPs) used on marine reefer containers, Vacuum, 2017, 146:111-119. WOS:000416184600017
[18] Ziwen Zhu, Qingrong Zheng*, Zehao Wang, Zheng Tang, Wu Chen, Hydrogen adsorption on graphene sheets and nonporous graphitized thermal carbon black at low surface coverage, International Journal of Hydrogen Energy, 2017, 42(29):18465-18472. WOS:000407657900040
[19] Ziwen Zhu, Qingrong Zheng*, Methane adsorption on the graphene sheets, activated carbon and carbon black, Applied Thermal Engineering, 2016, 108: 605-613. WOS:000384783000059
[20] Qingrong Zheng, Ziwen Zhu, Yulong Feng, Xiaohua Wang, Development of composite adsorbents and storage vessels for domestically used adsorbed natural gas, Applied Thermal Engineering, 2016, 98: 778-785. WOS:000373863000077
[21] Qingrong Zheng, Ziwen Zhu, Xiaohua Wang, Experimental studies of storage by adsorption of domestically used natural gas on activated carbon, Applied Thermal Engineering, 2015, 77: 134-141. WOS:000349723900015
[22] Qingrong Zheng, Xiaohua Wang, Shai Gao, Adsorption equilibrium of hydrogen on graphene sheets and activated carbon, Cryogenics, 2014, 61: 143-148. WOS:000337016100021
[23] Qingrong Zheng, Xuewen Ji, Shuai Gao, Xiaohua Wang, Analysis of adsorption equilibrium of hydrogen on graphene sheets, International Journal of Hydrogen Energy, 2013, 38(25): 10896-10902. WOS:000324563100088
专利
[1] 郑青榕,林青山,李姗姗,仵梦博,一种基于燃油和天然气水合物的LNG船舶混合动力系统,申请号:202520314769.4;发文序号:2025022600927460
[2] 郑青榕,王虎,张轩,仵梦博,李姗姗,一种基于碳基复合材料穿插与碳化的金属有机骨架复合物及其制备方法,申请号:CN202310597408.0;公开号:CN116688958A;公开日:2023-09-05.
[3] 郑青榕,张轩,廖圣平等,一种基于3D打印的MOFs复合储氢材料及其制备方法及其在船用储氢的应用,申请号:CN202210620327.3,公开号:CN114852958A;公开日:2022-08-05.
[4] 郑青榕,廖圣平,王虎,张轩,仵梦博,一种基于活性碳与膨胀石墨穿插的储氢用金属有机骨架复合物及其制备方法及其应用,申请号:CN202210517043.1;公开号:CN116550297A;公开日:2023-08-08.
[5] 朱子文,郑青榕,郑超瑜,张慕元,刘金鑫, 一种密度泛函理论展开项改进的方法、装置及存储介质,ZL202210723189.1
[6] 朱子文,彭苗娇,贾冰,郑青榕,运用卷积神经网络确定模糊控制理论隶属度函数的改进法, 申请号:CN202211575941.9;公开号:CN116050461A;公开日:2023-05-02.
[7] 廖圣平,郑青榕,一种用于空调内机的循环加湿装置,申请号:CN202121649969.3;公开号:CN217763672U;授权号:CN217763672U;授权日:2022-11-08.
联系方式
Email:qrzheng816@sina.com; zhengqr@jmu.edu.cn;
手机:13774679826(微信同号)
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