英文期刊论文:
30. Zhang-Jing Zheng, Hang Yin, Chen He, Yong Wei, Ming Cui, Yang Xu*. Parameter optimization of unevenly spiderweb-shaped fin for enhanced solidification performance of shell and tube latent-heat thermal energy storage units[J]. Journal of Energy Storage, 2023, 72, 108495.
29. Zhang-Jing Zheng, Yang Chen, Yu Sun, Chen He, Hang Yin, Yang Xu*. Melting and solidification performance enhancement of phase change material in a square cavity by utilizing temperature-driven deformable fin [J]. Applied Thermal Engineering, 2023, 226, 120313.
28. Zhang-Jing Zheng, Sun Yu, Chen Yang, Chen He, Hang Yin, Yang Xu*. Study of the melting performance of shell-and-tube latent heat thermal energy storage unit under the action of rotating finned tube [J]. Journal of Energy Storage, 2023, 62, 106801.
27. Chao Yang, Yang Xu, Xiao Cai, Zhang-Jing Zheng*. A simplified phase change model and performance optimization of plate latent heat storage unit with graded porous[J]. International Journal of Heat and Mass Transfer. 2022, 196: 123309.
26. Yang Xu, Yin H.; He, C.; Wei, Y.; Cui, M.; Zhang-Jing Zheng*. Structure Optimization of Longitudinal Rectangular Fins to Improve the Melting Performance of Phase Change Materials through Genetic Algorithm[J]. Energies, 2022, 15, 9610. (SCI, EI)
25. Zhang-Jing Zheng, Xiao Cai, Chao Yang, Yang Xu*. Improving the solidification performance of a latent heat thermal energy storage unit using arrow-shaped fins obtained by an innovative fast optimization algorithm [J]. Renewable Energy, 2022, 195: 566-577. (SCI, EI)
24. Chao Yang, Zhang-Jing Zheng, Xiao Cai, Yang Xu*, Experimental study on the effect of rotation on melting performance of shell-and-tube latent heat thermal energy storage unit[J]. Applied Thermal Engineering, 2022, 215: 118877. (SCI, EI)
23. Xiao Cai, Zhang-Jing Zheng, Chao Yang, Yang Xu*, Improving the solidification performance of a shell-and-tube latent-heat thermal energy storage unit using a connected-Y-shaped fin. International Journal of Energy Research. 2022, 46(9): 12758-12771. (SCI, EI)
22. Zhang-Jing Zheng, Chao Yang, Yang Xu, Xiao Cai. Effect of metal foam with two-dimensional porosity gradient on melting behavior in a rectangular cavity [J]. Renewable Energy, 2021, 172: 802–815. (SCI, EI)
21. Yang Xu, Zhang-Jing Zheng*, Chao Yang, Xiao Cai. Intelligent optimization of horizontal fins to improve the melting performance of phase change materials in a square cavity with isothermal vertical wall[J]. Journal of Energy Storage, 2021, 44: 103334. (SCI, EI)
20. Chao Yang, Yang Xu, Xiao Cai, Zhang-Jing Zheng*. Melting behavior of the latent heat thermal energy storage unit with fins and graded metal foam[J]. Applied Thermal Engineering. 2021, 161: 114176.. (SCI, EI)
19. Chao Yang, Yang Xu, Xiao Cai, Zhang-Jing Zheng*. Effect of the circumferential and radial graded metal foam on horizontal shell-and-tube latent heat thermal energy storage unit[J]. Solar Energy. 2021, 226: 225-235. (SCI, EI)
18. Yang Xu, Zhang-Jing Zheng*, Song Chen, Xiao Cai, Chao Yang. Parameter analysis and fast prediction of the optimum eccentricity for a latent heat thermal energy storage unit with phase change material enhanced by porous medium[J]. Applied Thermal Engineering, 2021, 186: 116485. (SCI, EI)
17. Yang Xu, Zhang-Jing Zheng*, Ming-Jia Li. A half-analytical correlation of total melting time for shell-and-tube latent-heat thermal energy storage unit[J]. Applied Thermal Engineering, 2019, 161: 114176. (SCI, EI)
16. Zhang-Jing Zheng, Yang Xu, Ming-Jia Li. Eccentricity optimization of a horizontal shell-and-tube latent-heat thermal energy storage unit based on melting and melting-solidifying performance[J]. Applied Energy, 2018, 220: 447–454.(SCI, EI)
15. Zhang-Jing Zheng, Yang Xu. A novel system for high-purity hydrogen production based on solar thermal cracking of methane and liquid-metal technology: Thermodynamic analysis[J]. Energy Conversion and Management, 2018, 157: 562-574. (SCI, EI)
14. Yang Xu, Ming-Jia Li, Zhang-Jing Zheng, Xiao-Dai Xue. Melting performance enhancement of phase change material by a limited amount of metal foam: Configurational optimization and economic assessment[J]. Applied Energy, 2018, 212: 868-880. (SCI, EI)
13. Zhong-Hao Rao, Tao-Tao Xu, Chen-Zhen Liu, Zhang-Jing Zheng, Lin Liang, Kun Hong. Experimental study on thermal properties and thermal performance of eutectic hydrated salts/expanded perlite form-stable phase change materials for passive solar energy utilization. Solar Energy Materials and Solar Cells, 2018, 188: 6–17. (SCI, EI)
12. Zhang-Jing Zheng, Ming-Jia Li, Ya-Ling He. Thermal analysis of solar central receiver tube with porous inserts and non-uniform heat flux. Applied Energy, 2017, 185: 1152-1161. (SCI, EI)
11. Yang Xu, Qin-Long Ren, Zhang-Jing Zheng, Ya-Ling He. Evaluation and optimization of melting performance for a latent heat thermal energy storage unit partially filled with porous media. Applied Energy, 2017, 193: 84-95. (SCI, EI)
10. Zhang-Jing Zheng, Yang Xu, Ya-Ling He. Thermal analysis of a solar parabolic trough receiver tube with porous insert optimized by coupling genetic algorithm and CFD. Science China Technological Sciences, 2016, 59: 1475-1485. (SCI, EI)
9. Ya-Ling He, Zhang-Jing Zheng, Bao-Cun Du, Kun Wang, Yu Qiu. Experimental investigation on turbulent heat transfer characteristics of molten salt in a shell-and-tube heat exchanger. Applied Thermal Engineering, 2016, 108: 1206-1213. (SCI, EI)
8. Bao-Cun Du, Ya-Ling He, Zhang-Jing Zheng, Zeng-Dong Cheng. Analysis of thermal stress and fatigue fracture for the solar tower molten salt receiver. Applied Thermal Engineering, 2016, 99: 741-750. (SCI, EI)
7. Yu Qiu, Ya-Ling He, Ming Wu, Zhang-Jing Zheng. A comprehensive model for optical and thermal characterization of a linear Fresnel solar reflector with a trapezoidal cavity receiver. Renewable Energy, 2016, 97: 129-144. (SCI, EI)
6. Zhang-Jing Zheng, Ming-Jia Li, Yang-Ling He. Optimization of porous insert configurations for heat transfer enhancement in tubes based on genetic algorithm and CFD. International Journal of Heat and Mass Transfer, 2015, 87: 376-379.(SCI, EI)
5. Zhang-Jing Zheng, Yan He, Ya-Ling He, Kun Wang. Numerical optimization of catalyst configurations in a solar parabolic trough receiver–reactor with non-uniform heat flux. Solar energy, 2015, 122: 113-125. (SCI, EI)
4. Zhang-Jing Zheng, Ming-Jia Li, Ya-Ling He. Optimization of porous insert configuration in a central receiver tube for heat transfer enhancement. Energy Procedia, 2015, 75: 502-507. (EI)
3. Zhang-Jing Zheng, Yan He, Ya-Ling He. Optimization for a thermochemical energy storage-reactor based on entransy dissipation minimization. Energy Procedia, 2015, 75: 1791-1796. (EI)
2. Zhang-Jing Zheng, Ya-Ling He, Yin-Shi Li. An entransy dissipation-based optimization principle for solar power tower plants. Science China Technological Sciences, 2014, 57(4): 773-783. (SCI, EI)
1. Ze-Dong Cheng, Ya-Ling He, Fu-Qian Cui, Bao-Cun Du, Zhang-Jing Zheng, Yang Xu. Comparative and sensitive analysis for parabolic trough solar collectors with a detailed Monte Carlo ray-tracing optical model. Applied Energy, 2014, 115: 559-572. (SCI, EI)
中文期刊论文:
6. 蔡肖,徐阳,杨超,郑章靖*.一种相变储热器内翅片结构的快速优化算法[J].发电技术, 2022, 43(1): 92-101.
5. 杨超, 徐阳, 郑章靖*. 二维梯级多孔强化相变储热装置熔化过程研究[J]. 工程热物理学报, 2021, 42(11): 2946-2953. (EI:)
4. 郑章靖, 徐阳, 蔡肖, 杨超. 研究生导师"立德树人"自评价体系量化研究[J]. 大学教育, 2022, 7(): 230-233.
3. 郑章靖, 徐阳, 何雅玲. 梯级多孔介质强化管壳式相变储热器性能研究[J]. 工程热物理学报, 2019: 40(3), 605-611. (EI)
2. 徐阳, 郑章靖*, 李明佳. 管壳式相变储热器性能快速预测研究[J]. 化工学报, 20190901, 70(S2): 237-243. (EI源刊)
1. 何雅玲, 王坤, 杜保存, 邱羽, 郑章靖, 梁奇. 聚光型太阳能热发电系统非均匀辐射能流特性及解决方法的研究进展. 科学通报, 2016 (30): 3208-3237. (EI)
国际会议论文:
4. Zhang-Jing Zheng, Yang Xu. A unified correlation of the fully melting time for the plate-type latent-heat thermal energy storage unit[C]. The Proceedings of the International Conference on Energy, Resources, Environment and Sustainable Development. Xu Zhou, China, May 31-June 3, 2019.
3. Zhang-Jing Zheng, Ming-Jia Li, Ya-Ling He. Optimization of porous insert configuration in a central receiver tube for heat transfer enhancement, The 7th International Conference on Applied Energy, Abu Dhabi, United Arab Emirates, 2015, March 28-31.
2. Zhang-Jing Zheng, Yan He, Ya-Ling He. Optimization for a thermochemical energy storage-reactor based on entransy dissipation minimization, The 7th International Conference on Applied Energy, Abu Dhabi, United Arab Emirates, 2015, March 28-31.
1. Zhang-Jing Zheng, Shuo Lv, Yin-Shi Li, Ze-Dong Cheng, Ya-Ling He. Three-dimensional numerical study of a parabolic trough solar receiver/reactor with nonuniform solar flux conditions, The 4th Asian Symposium on Computational Heat Transfer and Fluid Flow. Hong Kong, China, 2013, June 2-6.
国内会议论文:
7. 陈洋,徐阳,孙雨,郑章靖*. 温度驱动的可变形翅片对方腔内相变材料熔化与凝固性能的协同强化[C]. 中国工程热物理学会2022年传热传质学术会议.武汉,中国,12月16-18日,2022,p.223556 (1-19).
6. 杨超,徐阳,郑章靖*.平板内梯级多孔相变简化模型研究[C]. 中国工程热物理学会2021年传热传质学术会议. 上海, 中国, 10月29-31日, 2021, p.213443 (1-12).
5. 杨超,徐阳,郑章靖*.二维梯级多孔作用下方腔内熔化性能研究[C]. 中国工程热物理学会2020年传热传质学术会议. 广州, 中国, 11月26-29日, 2020, p. 203134 (1-14).
4. 蔡肖, 徐阳, 郑章靖*.改进型树状翅片在管壳式相变储热器中的强化研究[C]. 中国工程热物理学会2020年传热传质学术会议. 广州, 中国, 11月26-29日, 2020, p. 203223 (1-11).
3. 郑章靖, 徐阳, 李明佳. 管壳式相变储热器性能快速预测研究[C]. 中国工程热物理学会2018年传热传质学术会议. 哈尔滨, 中国, 10月12-15日, 2019, p. 183263 (1-10).
2. 郑章靖, 徐阳, 何雅玲. 管壳式相变储热器中填充梯级多孔介质的性能优化研究[C]. 中国工程热物理学会2017年传热传质学术会议. 苏州, 中国, 10月27-30日, 2017, p. 173322 (1-10).
1. 郑章靖, 何雅玲, 程泽东, 李印实. 槽式太阳能吸热器/反应器的三维数值模拟研究, 中国工程热物理学会2013年传热传质学术会议, 2013, 10.25-28.
已授权国家发明专利:
17. 郑章靖, 徐阳. 一种从空气中取水的太阳能光伏板自清洁装置及方法[P]. 中国发明专利: 202110427705.1, 授权日期: 2022.08.19.
16. 徐阳, 郑章靖. 一种聚光吸热器-鼓泡式反应器耦合的甲烷裂解制氢装置及方法[P]. 中国发明专利: 201910387251.2, 授权日期: 2022.09.23.
15. 郑章靖, 徐阳. 一种聚光太阳能驱动的高温鼓泡式甲烷直接裂解制高纯氢系统及方法[P]. 中国发明专利: 201710863129.9, 授权日期: 2020.01.17.
14. 郑章靖, 徐阳. 一种高温粒子加热的鼓泡式甲烷分裂反应装置[P]. 中国发明专利: 201711276249.5, 授权日期: 2020.10.02.
13. 徐阳, 郑章靖. 一种固-液相变储热器的快速性能计算、预测方法及储热器设计方法[P]. 中国发明专利: 201810617324.8, 授权日期: 2020.08.11.
12. 何雅玲, 郑章靖, 王坤, 杜保存, 邱羽, 周一鹏, 梁奇, 吴明. 一种熔盐换热/储热设备性能测试装置[P]. 中国发明专利: 201510918131.2, 授权日期: 2018.04.17.
11. 何雅玲, 周一鹏, 郑章靖, 邱羽, 王坤, 杜保存, 梁奇. 一种熔盐换热实验装置及其控制方法[P]. 中国发明专利: ZL201610059405.1, 申请日期: 2016.01.28, 授权日期: 2018.07.03.
10. 何雅玲, 王坤, 李明佳, 程泽东, 崔福庆, 郑章靖. 一种太阳能聚光集热器及其设计方法[P]. 中国发明专利: 201310162862X, 授权日期: 2015.08.05.
9. 凌长明, 郑章靖, 李军, 徐青, 邓朝晖. 利用潮汐能单向驱动的旁路稳压式海水淡化及发电装置[P]. 中国发明专利: 2012102103342, 授权日期: 2014.05.07.
8. 凌长明, 郑章靖, 李军, 徐青, 邓朝晖. 利用潮汐能双向驱动的补压式海水淡化及发电装置[P]. 中国发明专利: 2012102102782, 授权日期: 2014.05.07.
7. 凌长明, 郑章靖, 李军, 徐青, 邓朝晖. 利用潮汐能双向驱动的旁路增压式海水淡化及发电装置[P]. 中国发明专利: 2012102100039, 授权日期: 2014.05.07.
6. 凌长明, 郑章靖, 李军, 徐青, 邓朝晖. 利用潮汐能双向驱动的海水淡化及发电装置 [P].中国发明专利: 2012102103944, 授权日期: 2014.05.07.
5. 凌长明, 郑章靖, 李军, 徐青, 邓朝晖. 利用潮汐能单向驱动的调功式海水淡化及发电的装置[P]. 中国专利: 2012102103681, 授权日期: 2014.05.07.
4. 凌长明,郑章靖,李军,徐青,邓朝晖. 利用潮汐能双向驱动的调功式海水淡化及发电装置[P].中国发明专利: 2012102102763, 授权日期: 2014.05.07.
3. 凌长明, 郑章靖, 李军, 徐青, 邓朝晖. 利用潮汐能驱动的海水淡化及发电的方法与装置[P]. 中国发明专利: 2010105815528, 授权日期: 2013.01.02.
2. 凌长明, 郑章靖, 李军, 徐青, 邓朝晖. 利用海洋能的反渗透海水淡化方法及装置[P]. 中国发明专利: 2010101054335, 授权日期: 2012.08.15.
1. 凌长明, 李军, 徐青, 邓朝晖, 阮小龙, 郑章靖. 海洋能聚能方法及装置[P]. 中国发明专利: 201010152788X, 授权日期: 2012.01.04.
申请发明专利:
3. 郑章靖, 蔡肖, 徐阳, 杨超, 孙雨, 陈洋. 用于相变储热器性能强化的纵向翅片结构快速优化方法[P]. 中国发明专利: 202110516426.2, 申请日期: 2021.05.12.