个人简历

张健鹏,副教授/副研究员张健鹏博士分别于2011年和2017年在北京大学获得能源与资源工程学士学位、力学(能源动力与资源工程)博士学位，主要从事低污染燃烧技术研究。2017年8月前往香港中文大学任伟教授课题组开展吸收光谱燃烧诊断的博士后工作。2019年9月入职四川大学空天科学与工程学院。主要研究方向为光学燃烧诊断、湍流燃烧基础研究和低污染燃烧技术等。目前为国际燃烧协会会员，在燃烧、光学诊断与能源领域的国际期刊Energy, Proceedings of the Combustion Institute, Applied Spectroscopy, Energy & Fuels等发表了SCI论文30余篇，担任Applied Spectroscopy, Energy & Fuels, Applied Physics B等期刊审稿人，获授权发明专利5项。主持国家自然科学基金青年科学基金，四川省人才项目，四川省科技厅苗子工程重点项目等基金项目。
教育与研究经历
2019至今 四川大学，空天科学与工程学院，副研究员
2017-2019 香港中文大学，机械与自动化工程学系，博士后，合作导师任伟教授
2011-2017 北京大学工学院，能源与资源工程系，工学博士，导师米建春教授
2007-2011 北京大学工学院，能源与资源工程系，工学学士

研究领域

1. 光学燃烧诊断：直接吸收光谱，层析吸收光谱（tomography），色散光谱
2. 湍流燃烧实验与数值模拟（CFD）
3. 低碳低污染燃烧技术：MILD燃烧，富氧燃烧
4. 燃烧化学反应动力学：燃烧反应速率常数，污染物与碳烟生成机理""

近期论文

[1] K.-P. Cheong, G. Wang, J. Si, J. Mi, Nonpremixed MILD combustion in a laboratory-scale cylindrical furnace: Occurrence and identification, Energy. 216 (2021) 119295.
[2] G. Wang, K.-P. Cheong*, J. Si, J. Mi*, Nonpremixed Flameless Combustion in a Furnace: Influence of Burner Configuration, Energy Fuels. 35 (2021) 3333–3347.
[3] Z. Wang, K.-P. Cheong, M. Li, Q. Wang, W. Ren, Theoretical and Experimental Study of Heterodyne Phase-Sensitive Dispersion Spectroscopy with an Injection-Current-Modulated Quantum Cascade Laser, Sensors. 20 (2020) 6176.
[4] K.-P. Cheong, L. Ma, K. Duan, W. Ren, A numerical study of multiline-multiband tomographic absorption spectroscopy for axisymmetric flames, in: L. Wang (Ed.), Global Intelligent Industry Conference 2020, SPIE, Guangzhou, China, 2021: p. 89.
[5] L. Ma, K.-P. Cheong, H. Ning, W. Ren, An improved study of the uniformity of laminar premixed flames using laser absorption spectroscopy and CFD simulation, Experimental Thermal and Fluid Science. 112 (2020) 110013.
[6] M. Yang, K. Liu, L. Ma, K.-P. Cheong, Z. Wang, W. Ho, W. Ren, Time-resolved characterization of non-thermal plasma-assisted photocatalytic removal of nitric oxide, J. Phys. D: Appl. Phys. 53 (2020) 01LT02.
[7] K.-P. Cheong, L. Ma, Z. Wang, W. Ren, Influence of line pair selection on flame tomography using infrared absorption spectroscopy, Appl Spectrosc. 73 (2019) 529-539.
[8] K.-P. Cheong, G. Wang, B. Wang, R. Zhu, W. Ren, J. Mi, Stability and emission characteristics of nonpremixed MILD combustion from a parallel-jet burner in a cylindrical furnace, Energy. 170 (2019) 1181-1190.
[9] L. Ma, Z. Wang, K.-P. Cheong, H. Ning, W. Ren, Mid-infrared heterodyne phase-sensitive dispersion spectroscopy in flame measurements, Proc. Combust. Inst. 37(2) (2019) 1329-1336.
[10] L. Ma, Z. Wang, K.-P. Cheong, H. Ning, W. Ren, Temperature and H2O sensing in laminar premixed flames using mid-infrared heterodyne phase-sensitive dispersion spectroscopy, Appl. Phys. B. 124 (2018) 117.
[11] L. Ma, H. Ning, J. Wu, K.-P. Cheong, W. Ren, Characterization of temperature and soot volume fraction in laminar premixed flames: laser absorption/extinction measurement and 2D CFD modeling, Energy Fuels. 32(12) (2018) 12962-12970.
[12] K.-P. Cheong, G. Wang, J. Mi, B. Wang, R. Zhu, W. Ren, Premixed MILD combustion of propane in a cylindrical furnace with a single jet burner: combustion and emission characteristics, Energy Fuels. 32 (2018) 8817–8829.
[13] K.-P. Cheong, P. Li, F. Wang, J. Mi, Emissions of NO and CO from counterflow combustion of CH4 under MILD and oxyfuel conditions, Energy. 124 (2017) 652–664.
[14] J. Zhang, J. Mi, P. Li, F. Wang, B.B. Dally, Moderate or Intense Low-Oxygen Dilution combustion of methane diluted by CO2 and N2, Energy Fuels. 29 (2015) 4576–4585.
[15] J. Zhang, M. Xu, A. Pollard, J. Mi, Effects of external intermittency and mean shear on the spectral inertial-range exponent in a turbulent square jet, Phys. Rev. E. 87 (2013).
[16] J. Zhang, M. Xu, J. Mi, Large eddy simulations of a circular orifice jet with and without a cross-sectional exit plate, Chin. Phys. B. 23 (2014) 044704.