张国杰,流体力学博士,副研究员,郑州大学研究员(直聘),博士后,硕士研究生导师。 E-mail:zhangguojie2018@zzu.edu.cn 研究方向: 1. 非平衡凝结流动数值模型修正 2. 汽轮机新型除湿策略设计及优化 3. 压缩机及喷射器内跨临界CO2非平衡凝结流动 4. 压气机内湿空气非平衡凝结流动及调控 5. 基于非平衡凝结特性的新型液化技术 科研项目: 1. 国家自然科学基金青年基金项目(52106062),主持; 2. 第15批中国博士后科学基金站中特别资助项目(2022T150585),主持; 3. 第71批中国博士后科学基金面上项目(2022M712856),主持; 4. 第65批中国博士后科学基金面上项目(2019M652575),主持; 5. 河南省博士后2021年度科研项目(202102008),主持; 6. 河南省博士后2019年度科研项目(19030014),主持; 7. 河南省青年人才托举工程项目(2023HYTP019),主持; 8. 河南省通用航空技术重点实验室开放基金项目(ZHKF-230202),主持; 9. 2022年度河北省低碳高效发电技术重点实验室开放课题(2022-K04),主持; 10. 碳酸钙煅烧悬浮炉计算机仿真模拟试验,主持; 荣誉获奖: 1. 河南省科技进步三等奖,汽轮机气液两相传递协同调控技术及应用,排名第二,2022; 2. 河南省教育厅科技成果奖一等奖,汽轮机气液两相传递协同调控技术及应用,排名第二,2022; 代表性学术论文(按时间顺序): [21] Zhang Guojie, Yang Yifan, Chen Jiaheng, Jin Zunlong*, Sławomir Dykas*. Numerical study of heterogeneous condensation in the de Laval nozzle to guide the compressor performance optimization in a compressed air energy storage system [J]. Applied Energy, 2024, 356: 122361. [20] Zhang Guojie, Li Yunpeng, Jin Zunlong*, Sławomir Dykas*, Cai Xiaoshu. A novel Carbon Dioxide Capture Technology (CCT) based on non-equilibrium condensation characteristics: numerical modelling, nozzle design and structure optimization [J]. Energy, 2024, 286: 129603. [19] Zhang Guojie, Wang Xiaogang, Chen Jiaheng, Tang Songzhen, Smołka Krystian, Majkut Mirosław, Jin Zunlong*, Dykas Sławomir *, Supersonic nozzle performance prediction considering the homogeneous-heterogeneous coupling spontaneous non-equilibrium condensation [J]. Energy, 2023, 284: 129274. [18] Zhang Guojie, Yang Yifan, Chen Jiaheng Jin Zunlong*, Mirosław Majkut, Krystian Smołka, Sławomir Dykas*. Effect of relative humidity on the nozzle performance in non-equilibrium condensing flows forimproving the compressed air energy storage technology [J]. Energy, 2023, 280: 128240. [17] Zhang Guojie, Wang Xiaogang, Jin Zunlong*, Dykas Sławomir*, Smołka Krystian. Numerical study of the loss and power prediction based on a modified non-equilibrium condensation model in a 200MW industrial-scale steam turbine under different operation conditions [J]. Energy, 2023, 275: 127530. [16] Zhang Guojie, Wang Xiaogang, Piotr Wiśniewski, Chen Jiaheng, Qin Xiang*, Dykas Sławomir. Effect of NaCl presence caused by salting out on the heterogeneous-homogeneous coupling non-equilibrium condensation flow in a steam turbine cascade [J]. Energy, 2023, 263: 126074. [15] Chen Jiaheng, Zhang Zhenya, Zhang Guojie*, Wang Dingbiao. Energy, exergy, economic and environmental analysis of a novel direct-expansion solar-assisted flash tank vapor injection heat pump for water heater[J]. Energy Conversion and Management, 2022, 254: 115239. [14] Piotr Wiśniewski, Mirosław Majkut, Sławomir Dykas, Krystian Smołka, Guojie Zhang*, Balazs Pritz. Selection of a steam condensation model for atmospheric air transonic flow prediction [J]. Applied Thermal Engineering, 2022, 203: 117922. [13] Zhang Guojie, Wang Xiaogang, Dariush Pourranjbar, Dykas Sławomir, Li Hang*, Chen Jiaheng*. The comprehensive analysis of the relationship between the latent heat, entrainment ratio, and ejector performance under different superheating degree conditions considering the non-equilibrium condensation [J]. Applied Thermal Engineering, 2022, 200: 117701. [12] Zhang Guojie, Wang Xiaogang, Dykas Sławomir*, Mohammad Ali Faghih Aliabadi*. Reduction entropy generation and condensation by NaCl particle injection in wet steam supersonic nozzle [J]. International Journal of Thermal Sciences, 2022, 171: 107207. [11] Zhang Guojie, Sławomir Dykas*, Mirosław Majkutb, Krystian Smołkab, Xiaoshu Cai*. Experimental and numerical research on the effect of the inlet steam superheat degree on the spontaneous condensation in the IWSEP nozzle [J]. International Journal of Heat and Mass Transfer, 2020, 165A: 120654. [10] Zhang Guojie, Sławomir Dykas, Li Pan, Li Hang*, Wang Junlei*. Accurate condensing steam flow modeling in the ejector of the solar-driven refrigeration system [J]. Energy, 2020,121: 118690. [9] Zhang Guojie, Sławomir Dykas, Yang Sichong, Zhang Xinzhe, Li Hang*, Wang Junlei*. Optimization of the primary nozzle based on a modified condensation model in a steam ejector [J]. Applied Thermal Engineering, 2020,171:115090. [8] Zhang Guojie, Wang Fangfang, Wang Dingbiao, Wu Tan, Qin Xiang, Jin Zunlong*. Numerical study of the dehumidification structure optimization based on the modified model [J]. Energy Conversion & Management, 2019, 181:159–177. [7] Zhang Guojie, Zhang Xinzhe, Wang Fangfang, Wang Dingbiao, Jin Zunlong*, Zhou Zhongning*. Design and optimization of novel dehumidification strategies based on modified nucleation model in three-dimensional cascade [J]. Energy, 2019,187:115982. [6] Zhang Guojie, Zhang Xinzhe, Wang Fangfang, Wang Dingbiao, Jin Zunlong*, Zhou Zhongning*. Numerical investigation of novel dehumidification strategies in nuclear plant steam turbine based on the modified nucleation model [J]. International Journal of Multiphase Flow, 2019,120:103083. [5] Zhang Guojie, Zhang Xinzhe, Wang Dingbiao, Jin Zunlong*, Qin Xiang*. Performance evaluation and operation optimization of the steam ejector based on modified model [J]. Applied Thermal Engineering, 2019,163:114388. [4] Zhang Guojie, Zhang Xinzhe, Wang Fangfang, Wang Dingbiao, Jin Zunlong*. The relationship between the nucleation process and boundary conditions on non-equilibrium condensing flow based on the modified model [J]. International Journal of Multiphase Flow, 2019, 114:180-191. [3] Zhang Guojie, Wang Liang, Zhang Sen, Li Yimin, Zhou zhonging*. Effect evaluation of a novel dehumidification structure based on the modified model [J]. Energy Conversion & Management, 2018, 159:65-75. [2] Zhang Guojie, Zhang Sen, Zhou Zhongning, Li Yimin*, Wang Liang, Liu Cong. Numerical Study of Condensing Flow Based on the Modified Model [J]. Applied Thermal Engineering, 2017, 127:1206-1214. [1] Zhang Guojie, Zhou Zhongning*, Wu Jiqing, Li Yimin, Zhang Sen. Study on Numerical Simulation of Steam Turbine Dehumidification [J]. Journal of Engineering Thermophysics, 2017, 38(10):2086-2091. |