2006-2010 清华大学 能源动力系统及自动化专业获学士学位
2010-2015 清华大学 动力工程及工程热物理专业获博士学位,

2019-至今 上海交通大学
2015-2019 瑞典隆德大学 燃烧物理系 博士后研究员

主要从事以低碳化、智能化为目标的高效清洁等离子体能源转化和先进光学诊断技术研究，具体涉及：
（1）先进光学及激光诊断

主要围绕非平衡态等离子体的组分、速度、温度测量与模型融合诊断 （测量与诊断）

（2）等离子体反应流相关应用基础问题

等离子体强化燃烧及零碳燃料转化与利用 （低碳能源转化利用）

等离子体合成纳米颗粒及相关颗粒动力学基础问题 （半导体相关领域）

等离子体或光场诱导表面化学污染及探测研究 （半导体相关领域）
等离子体表面处理及强化二氧化碳捕集应用 （CCUS领域）
（3）能源系统灵活智慧测量与控制

基于数据融合的能量系统建模与优化、控制 （能源动力系统）

欢迎感兴趣的同学联系与讨论，长期招收相关领域方向博士、硕士研究生  

联系邮箱：kongcd19@sjtu.edu.cn

自控专委会委员；

担任过国际煤燃烧会议、燃烧年会等分会场主席；

担任Combustion and flame, Proceedings of the combustion institute, Chemical Engineering Journal, Journal of Applied Physics, IEEE Transactions on Plasma Science, Physics of Plasmas, Plasma Sources Science and Technology, IEEE access, Fuel, Energy&Fuel等多个国际期刊审稿人。

2025-2028：国家自然科学基金面上项目 主持

2024-2025:  上海市科委探索者项目 主持
2021-2023：国家自然科学青年科学基金 主持
2020-2022：上海市科委浦江项目 主持
2021-2023：上海交通大学“深蓝计划”项目 主持

及其他横向项目等

2025年

[1] Chengdong Kong*, Zhongshan Li, Non-thermal ablation of airborne Al₂O₃ particles by a nanosecond pulsed laser at 532 nm. Applied Physics B, 131(7): 136 (2025).

[2] Yu Wang, Chengdong Kong*, Juntao Ao, Chengyi Wang, Hongshen Li, Xiaojiang Wu, Zhongxiao Zhang, Correlation between NH₃ and NO emissions of gliding arc discharge assisted ammonia/air premixed flame near the lean blowout limit. Combustion and Flame, 281: 114451 (2025).

[3] Chengdong Kong*, Juntao Ao, Yu Wang, Xiaojiang Wu, Zhongxiao Zhang, Bozhong Yang, Ping Pang, A simplified analysis of turbulence effects on nanosecond pulsed discharge induced ammonia ignition. Fuel, 392: 134932 (2025).

[4] Yanchi Jiang*, Junfeng Jiang, Ruping Meng, Chengdong Kong, Zhongxiao Zhang, Ying Liao, Study on the 3D-printed monolithic ZSM-5 catalyst to enhance CO₂ desorption from amine solutions. Separation and Purification Technology, 360: 131230 (2025).

[5] Ruping Meng, Yanchi Jiang*, Junfeng Jiang, Jian Liu, Chengdong Kong, Zhongxiao Zhang, Macroscopic mechanism of amine solution regeneration enhanced by 3D printed monolithic kaolin catalyst. Fuel, 391: 134727 (2025).

[6] Junfeng Jiang, Yanchi Jiang*, Ruping Meng, Zhongxiao Zhang, Chengdong Kong, Construction of metal-modified monolithic catalytic packings based on 3D-printing to promote CO₂ desorption from the amine solution. Gas Science and Engineering, 139: 205642 (2025).

[7] Fan Peng, Hecong Liu, Chengdong Kong, Xiaocheng Mi, Bo Tian, Yutao Zheng, Shijie Xu, Weiwei Cai*, Micro-explosion of burning iron particles with carbon impurity. Combustion and Flame, 274: 113974 (2025).

[8] Jingruo Chen, Fan Peng, Bo Tian, Chengdong Kong, Yutao Zheng*, Shijie Xu, Yingzheng Liu, Weiwei Cai, Simultaneous temperature and particle size measurement of burning iron particles using a single color camera. Measurement, 241: 115679 (2025).

2024年

[1] Juntao Ao, Chengdong Kong*, Yu Wang, Xiaojiang Wu, Zhongxiao Zhang, Numerical study on the pretreatment of ammonia by nanosecond pulsed discharge for combustion enhancement: Effects of pretreatment uniformity. Combustion and Flame, 270: 113752 (2024).

[2] Yu Wang, Chengdong Kong*, Juntao Ao, Hongshen Li, Chengyi Wang, Xiaojiang Wu, Zhongxiao Zhang, A phenomenological understanding of the multimodal low-frequency oscillating combustion of ammonia induced by filamentary plasma discharge. Combustion and Flame, 270: 113748 (2024).

[3] Xiangyun Liao, Chengdong Kong*, Jian Liu, Yi Xu, Yanchi Jiang, Xiaojiang Wu*, Zhongxiao Zhang, Evaluating forward osmosis performance of MEA/MDEA absorbents for water replenishment in post-combustion carbon capture. Separation and Purification Technology, 350: 127984 (2024).

[4] Yu Wang, Chengdong Kong*, Chengyi Wang, Xiaojiang Wu*, Zhongxiao Zhang, Characteristics of unsteady rotating gliding arc induced ignition of ammonia–air mixture in swirling flow. Fuel, 364: 131117 (2024).

[5] Chengdong Kong*, Qingshuang Fan, Xin Liu, Arman Ahamed Subash, Tomas Hurtig, Andreas Ehn, Marcus Aldén, Zhongshan Li, Non-thermal gliding arc discharge assisted turbulent combustion (up to 80 kW) at extended conditions: phenomenological analysis. Combustion Science and Technology, 196 (2): 161-176 (2024).

[6] Jian Liu, Chengdong Kong*, Yanchi Jiang*, Xiaojiang Wu, Xiangyun Liao, Shaojuan Zeng, Tao Wang, Mengxiang Fang, Zhongxiao Zhang*, Evaluating CO₂ desorption performance of MEA solution with MnOx/HZ catalytic packings by visualization method. Chemical Engineering Journal, 479: 147650 (2024).

[7] Liulin Cen, Zekang Lyu, Chengdong Kong, Dezhi Zhou, Yong Qian*, Xingcai Lu, Composition changes and micro explosion characteristics of burning droplets formed by combustion of micrometer iron wires. Combustion and Flame, 269: 113662 (2024).

[8] Fan Peng, Chengdong Kong, Hecong Liu, Xiaocheng Mi, Shijie Xu, Yingzheng Liu, Weiwei Cai*, Ignition and combustion of a single iron particle with impurities in hot post-flame gas flow. Combustion and Flame, 265: 113509 (2024).

[9] Tianze Yu, Haotian Zhang, Zhixin Zhao, Chengdong Kong, Ruobing Zhang, Jiajian Zhu, Bo Zhou*, Characteristics of an AC rotating gliding arc discharge in NH₃ and air atmospheres. Physics of Plasmas, 31(2): 023501 (2024)

2023年

[1] Chengdong Kong*, Yu Wang, Xiaojiang Wu, Zhongxiao Zhang, Rotating gliding arc discharge induced flame oscillation near the lean blowout limit. Combustion and Flame, 254: 112812 (2023).

[2] Yu Wang, Chengdong Kong*, Xiaojiang Wu, Zhongxiao Zhang, Characteristics of rotating gliding arc induced thermal ignition of lean methane-air mixtures. Applications in Energy and Combustion Science, 14: 100154 (2023).

[3] Yupan Bao, Chengdong Kong, Jonas Ravelid, Jinguo Sun, Sebastian Nilsson, Elias Kristensson, Andreas Ehn*, Effect of a single nanosecond pulsed discharge on a flat methane–air flame. Applications in Energy and Combustion Science, 16: 100198 (2023).

[4] Jinguo Sun, Hu Wu, Yong Tang, Chengdong Kong, Shuiqing Li*, Blowout dynamics and plasma-assisted stabilization of premixed swirl flames under fuel pulsations. Applications in Energy and Combustion Science, 14: 100122 (2023).

2022年

[1] Chengdong Kong*, Jinlong Gao, Andreas Ehn, Marcus Aldén, Zhongshan Li, Understanding the characteristics of non-equilibrium alternating current gliding arc discharge in a variety of gas mixtures (air, N₂, Ar, Ar/O₂, and Ar/CH₄) at elevated pressures (1–5 atm). Physics of Plasmas, 29(3): 033502 (2022).

[2] Jian Liu, Chengdong Kong*, Liu Yang, Xiaojiang Wu, Zhongxiao Zhang, Enhancement of mass transfer performance by nanoparticles during the CO₂ absorption with MDEA solution in a randomly packed tower. Greenhouse Gases: Science and Technology, 12 (6): 738-750 (2022).

[3] Jian Liu, Chengdong Kong*, Zhongxiao Zhang, Liu Yang, A hybrid method combining membrane separation and chemical absorption for flexible CH₄ refinement and CO₂ separation in natural gas, Greenhouse Gases: Science and Technology, 12(1): 189-199 (2022).

[4] Zhenkan Wang, Panagiota Stamatoglou, Chengdong Kong, Jinlong Gao, Yupan Bao, Marcus Alden, Andreas Ehn*, Mattias Richter, Hydroxyl radical dynamics in a gliding arc discharge using high-speed PLIF imaging. Plasma Research Express, 4(2): 025007 (2022). 

[5] Chengdong Kong*, Yu Wang, Yong Qian, Xiaojiang Wu, Zhongxiao Zhang, Moderate micro-explosion during the combustion of iron wire in atmospheric air. Proceedings of the Combustion Institute, 39(3): 3489-3495 (2022).

2021年

[1] Yupan Bao, Karolina Dorozynska, Panagiota Stamatoglou, Chengdong Kong, Tomas Hurtig, Sebastian Pfaff, Johan Zetterberg, Mattias Richter, Elias Kristensson, Andreas Ehn*, Single-shot 3D imaging of hydroxyl radicals in the vicinity of a gliding arc discharge. Plasma Sources Science and Technology, 30(4): 04LT04 (2021).

2020年

[1] Shen Li, Wubin Weng, Chengdong Kong*, Marcus Aldén, Zhongshan Li, Dual-laser-induced breakdown thermometry via sound speed measurement: a new procedure for improved spatiotemporal resolution. Sensors, 20(10): 2803 (2020).

[2]. Kong Chengdong*, Li Zhongshan, Aldén Marcus, Ehn Andreas, Thermal analysis of a high-power glow discharge in the flowing atmospheric air by combining Rayleigh scattering thermometry and numerical simulation. Journal of Physics D: Applied Physics, 53, 2020, 085502.

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2019年及之前
1. Kong Chengdong, Li Z., Aldén M., Ehn A., Stabilization of a turbulent premixed flame by a plasma filament. Combustion and flame, 208, 2019, 79-85
2. Kong Chengdong, Gao Jinlong, Li Zhongshan, Aldén Marcus, Ehn Andreas, Layered structure around an extended gliding discharge column in a methane-nitrogen mixture at high pressure. Appl. Phys. Lett., 114, 2019, 194102
3. Kong Chengdong, Gao Jinlong, Zhu Jiajian, Ehn Andreas, Aldén Marcus and Li Zhongshan, Characteristics of a gliding arc discharge under the influence of a laminar premixed flame, IEEE Transactions on Plasma Science, 47, 2019, 403-409.
4. Kong Chengdong, Gao Jinlong, Zhu Jiajian, Ehn Andreas, Aldén Marcus and Li Zhongshan, Re-igniting the afterglow plasma column of an AC powered gliding arc discharge in atmospheric-pressure air, Applied Physics Letters. 112, 2018, 264101
5. Gao Jinlong, Kong Chengdong*, Zhu Jiajian, Ehn Andreas, Tomas Hurtig, Tang Yong, Chen Shuang, Aldén Marcus and Li Zhongshan, Visualization of instantaneous structure and dynamics of large-scale turbulent flames stabilized by a gliding arc discharge, Proceedings of the Combustion Institute, 37, 2019, 5629-5636.
6. Kong Chengdong, Gao Jinlong, Zhu Jiajian, Ehn Andreas, Aldén Marcus and Li Zhongshan, Effect of turbulent flow on an atmospheric-pressure AC powered gliding arc discharge, Journal of Applied Physics, 123, 2018, 223302.
7. Larsson Kajsa, Hot Dina, Gao Jinlong, Kong Chengdong, Li Zhongshan, Aldén Marcus, Bood Joakim, Ehn Andreas, Instantaneous imaging of ozone in a gliding arc discharge using photofragmentation laser-induced fluorescence, J. Phys. D: Appl. Phys. 51, 2018, 135203.
8. Yu, Dan, Kong Chengdong, Zhuo Jiankun, Yao Qiang, Li Shuiqing, Wang, Mengze and Tian Zhen yu Combustion characteristics of well-dispersed boron submicroparticles and plasma effect, Combustion and Flame. 188, 2018, 94-103
9. Kong Chengdong, Gao Jinlong, Zhu Jiajian, Ehn Andreas, Aldén Marcus and Li Zhongshan, Characterization of an AC glow-type gliding arc discharge in atmospheric air with a current-voltage lumped model, Physics of Plasmas. 24, 2017, 093515
10. Tang Yong, Kong Chengdong, Zong Yichen, Li Shuiqing, Zhuo Jiankun, Yao Qiang, Combustion of aluminum nanoparticle agglomerates: from mild oxidation to microexplosion, Proceedings of the Combustion Institute. 36, 2017, 2325-2332.
11. Zhu, Jiajian, Ehn Andreas, Gao Jinlong, Kong Chengdong, Aldén Marcus, Salewski M., Leipold F., Kusano Y. and Li Zhongshan, Translational, rotational, vibrational and electron temperatures of a gliding arc discharge, Optics Express. 25, 2017, 20243-20257
12. Kong Chengdong, Yu Dan, Yao Qiang, Li Shuiqing, Morphological changes of nano-Al agglomerates during reaction and its effect on combustion, Combustion and Flame, 165, 2016, 11-20.
13. Kong Chengdong, Yu Dan, Li Shuiqing, Yao Qiang. Mechanism and modelling of aluminium nanoparticle oxidation coupled with crystallization of amorphous Al2O3 shell. Combustion Theory and Modelling, 20, 2016, 296-312.
14. Kong Chengdong, Yao Qiang, Yu Dan, Li Shuiqing. Combustion characteristics of well-dispersed aluminum nanoparticles streams in post flame environment. Proceedings of the Combustion Institute. 35, 2015, 2479-2486.
15. 孔成栋, 于丹, 姚强, 李水清. 纳米铝单颗粒与颗粒团燃烧的比较分析. 燃烧科学与技术，2016, 97-0101.
16. Kong Chengdong, Yao Qiang, Yu Dan, Li Shuiqing, Ionic self-diffusion of Al cations and O anions in the vitreous Al2O3 with molecular dynamics simulations. Journal of non-crystalline solids, 430, 2015, 31-37.
17. Yu Dan, Kong Chengdong, Zhuo Jiankun, Li Shuiqing, Yao Qiang. Oxidation characteristics of boron particles. Science China Technological Sciences, 58, 2015, 2016-2024.
18. 孔成栋, 于丹, 姚强, 卓建坤, 李水清. 基于彩色火焰图像的铝、硼纳米颗粒燃烧特性分析，光学精密工程, 23, 2015, 2288-2295.
19. 于丹，孔成栋, 卓建坤, 姚强，李水清.硼颗粒着火阶段氧化性能研究. 工程热物理学报, 2015(04).
20. Kong Chengdong, Xu Zilin, Yao Qiang. Outdoor performance of a low-concentrated photovoltaic-thermal hybrid system with crystalline silicon solar cells. Applied Energy. 112, 2013, 618-625.
21. Kong Chengdong, Yao Qiang, Zhang Yiyang, Li Shuiqing. Pre-ignition characteristics of aluminum nanoparticles in CO2 and air atmospheres. 9th Asia-Pacific conference on combustion. Korea. 19-22 May 2013.
22. Kong Chengdong, Gao Jinlong, Ehn Andreas, Li Zhongshan, Analysis of radical distributions around the filamentary plasma discharge channel at atmospheric pressure. 23rd international symposium on plasma chemistry, 2017, Montreal, Canada
23. Gao Jinlong, Kong Chengdong, Larsson Kajsa, Hot Dina, Ehn Andreas, Bood Joakim, Alden Macus, Li Zhongshan, Investigation of flow effect on O3 generation in a gliding arc discharge at atmospheric pressure using PFLIF imaging, 23rd international symposium on plasma chemistry, 2017, Montreal, Canada