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，北海道大学访问学者。

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. 河南省自然科学基金面上项目（262300421406），主持；

2. 国家自然科学基金青年基金项目（52106062），主持；

3. 第15批中国博士后科学基金站中特别资助项目（2022T150585)，主持；

4. 第71批中国博士后科学基金面上项目（2022M712856），主持；

5. 第65批中国博士后科学基金面上项目（2019M652575），主持；

6. 河南省博士后2021年度科研项目（202102008），主持；

7. 河南省博士后2019年度科研项目（19030014），主持；

8. 河南省青年人才托举工程项目（2023HYTP019），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）：

[45] Zhang Guojie, Zhang Qianhao, Yang Yifan, et al. Mixture-based loss evaluation and critical superheat determination in transonic steam flows for flexible turbine operation: An experimentally validated OpenFOAM approach[J]. Energy, 2026, 351: 140804.

[44] Yang Yifan, Yang Hao, Jin Zunlong, Dykas Sławomir, Zhang Guojie*. Nozzle performance evaluation considering non-equilibrium condensation under complex weather conditions for guiding compressed air energy storage system optimization[J]. Physics of Fluids, 2026, 38(2):026101.

[43] Zhang Guojie, Yang Hao, Jin Zunlong, Majkut Mirosław, Smołka Krystian, Yang Yifan*, Dykas Sławomir*. Insights into the impact of polluted moist air on transonic condensation flow to enhance compressor performance: experimental and numerical investigation[J]. Energy, 2026, 347: 140175.

[42] Zhang Shoubing, Jin Zunlong, Zhang Guojie*. Optimization of liquid droplet injection in steam turbine blades: Loss reduction, droplet size control, and performance enhancement[J]. Energy, 2026, 347: 140384.

[41] Zhang Guojie, Li Menghao, Yang Yifan*, Zhang Xinzhe, Jin Zunlong, Dykas Sławomir, Cai Xiaoshu. Numerical study of CO₂ heterogeneous condensation in nozzle for sCO2 compressor stability [J]. Applied Thermal Engineering, 2026, 288: 129540.

[40] Yang Yifan, Jin Zunlong, Dykas Sławomir, Zhang Guojie*. Numerical study of moist air transonic condensing flow within Convergent–Divergent nozzle based on phase-change dynamics and loss mechanisms for enhancement in compressors operation[J]. International Journal of Heat and Mass Transfer, 2026, 258C: 128285.

[39] Zhang Guojie, Li Menghao, Yang Yifan*, Jin Zunlong, Zhang Xinzhe*, Dykas Sławomir, Cai Xiaoshu. Insight the heat and mass transfer characteristics of carbon dioxide non-equilibrium condensation to improve supercritical carbon dioxide Brayton cycle system[J]. International Communications in Heat and Mass Transfer, 2026, 172: 110362.

[38] Yang Yifan, Yang Hao, Jin Zunlong, Dykas Sławomir, Zhang Guojie*. Investigation on the heat and mass transfer characteristics of the moist air transonic condensation to enhance compressor performance[J]. Applied Thermal Engineering, 2026, 287: 129461.

[37] Zhang Guojie, Zuo Qiang, Yang Yifan, Jin Zunlong*, Dykas Sławomir*. Numerical study on the effect of heterogeneous condensation in the primary nozzle on condensation flow and performance of steam ejector[J]. Energy, 2025, 341: 139486.

[36] Majkut Mirosław, Dykas Sławomir, Smołka Krystian*, Zhang, Guojie*. Study of shock wave and boundary layer interactions in converging–diverging nozzles with varying inlet air humidity levels[J]. Experiments in Fluids, 2025, 66(12), 223.

[35] Zhang Guojie, Zhang Qianhao, Yang Yifan*, Jin Zunlong, Dykas Sławomir. Development of an OpenFOAM non-equilibrium condensation model for flow loss and performance prediction in steam transonic flows[J]. Energy, 2025, 340： 139183

[34] Zhang Guojie, Yang Yifan, Chen Jiaheng, Jin Zunlong*, Dykas Sławomir*. A novel hydrogen liquefaction model: numerical study of supersonic condensation and structural optimization for multi-state hydrogen for enhanced transportation[J]. Journal of Cleaner Production, 2025, 521: 146259. (ESI 高被引论文，Hot paper 热点论文)

[33] Zhang Guojie, Yang Hao, Zuo Qiang, Chen Jiaheng, Jin Zunlong*, Dykas Sławomir*. Preliminary proposal a novel structure based on a blend condensation model to improve performance of steam ejectors in solar-driven refrigeration system[J]. International Journal of Thermal Sciences, 2025, 218: 110168.

[32] Zhang Guojie, Zuo Qiang, Zhang Shoubing, Jin Zunlong*. Numerical optimization of liquid droplet injection in a supersonic nozzle for performance and dehumidification enhancement[J]. International Communications in Heat and Mass Transfer, 2025, 167: 109359.

[31] Zhang Guojie, Yang Yifan, Jin Zunlong*, Dykas Sławomir*. Insight into the heat and mass transfer effects on the transonic condensing flow in compressor applied to compressed air energy storage system[J]. Energy Conversion and Management, 2025, 342: 120101. (ESI 高被引论文，Hot paper 热点论文)

[30] Zhang Xinzhe, Yu Bin, Li Guoju, Wang Xiaolu, Sławomir Dykas, Zhang Guojie*. Progress in the research on non-equilibrium condensation of the compressor in the supercritical CO2 closed Brayton cycle system[J]. Physics of Fluids, 2025; 37 (4): 041301.

[29] Zhang Guojie, Yang Hao, Ye Jianming, Jin Zunlong*, Sławomir Dykas*. Numerical investigation of RAE 2822 airfoil in non-equilibrium condensing flow of moist air [C]. International Conference on Aerospace System Science and Engineering 2024, ICASSE 2024. Lecture Notes in Electrical Engineering, 2025, 1360: 91-100.

[28] Zhang Guojie, Yang Hao, Chen Jiaheng, Jin Zunlong*, Dykas Sławomir *. Effect of moist air non-equilibrium condensation on airfoil performance based on a novel model[J]. Aerospace Science and Technology, 2025, 161: 110108. (ESI 高被引论文)

[27] Zhang Guojie, Zuo Qiang, Chen Jiaheng, Jin Zunlong*, Dykas Sławomir *. A comprehensive investigation on the recommendation and optimization of the steam non-equilibrium rapid condensation model under a wide range of boundary conditions[J]. Desalination, 2025, 602: 118602. . (ESI 高被引论文)

[26] Zhang Guojie, Li Yunpeng, Jin Zunlong*, Sławomir Dykas*. Prediction of the non-equilibrium condensation characteristic of CO₂ based on a Laval nozzle to improve carbon capture efficiency [J]. Fuel, 2025, 381: 133303.

[25] Zhang Guojie, Zuo Qiang, Chen Jiaheng, Jin Zunlong*, Dykas Sławomir *, Majkut Mirosław, Smołka Krystian. Numerical investigation and optimization of heterogeneous-homogeneous coupled condensation in steam turbines of tower solar power system [J]. International Communications in Heat and Mass Transfer, 2024, 159: 108336.

[24] Zhang Guojie, Yang Yifan, Zhang Xinzhe, Zhang Zebin, Chen Jiaheng, Jin Zunlong*, Dykas Sławomir *. Nanoparticles-induced heterogeneous condensation and geometry optimizations to enhance liquefaction efficiency and mitigate exergy loss in a novel hydrogen liquefaction two-phase expander[J]. Energy, 2024, 313: 134006.

[23] Zhang Guojie, Wang Xiaogang, Ye Jianming, Jin Zunlong*, Sławomir Dykas*. Numerical study of the heterogeneous condensation effect on the steam turbine performance[C]. Journal of Physics: Conference Series. IOP Publishing, 2024, 2707(1): 012088.

[22] Zhang Guojie, Li Yunpeng, Ye Jianming, Jin Zunlong*, Sławomir Dykas*. Performance prediction and loss evaluation of the carbon dioxide supersonic nozzle considering the non-equilibrium condensation[C]. Journal of Physics: Conference Series. IOP Publishing, 2024, 2707(1): 012009.

[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. . (ESI 高被引论文)

[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. . (ESI 高被引论文)

[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. . (ESI 高被引论文)

[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.