王超俊

博士、副教授

基本信息

办公电话: 电子邮件: cjwang@bjtu.edu.cn
通讯地址:北京市海淀区上园村3号北京交通大学机械楼Z908A 邮编:100044

教育背景

2007.9~2011.6   北京交通大学  本科

2011.9~2017.1   北京交通大学  研究生-博士

2014.9~2015.9   University of California, Merced, USA   联合培养

工作经历

2017.3~2019.3     北京交通大学   师资博士后

2019.3~2021.12     北京交通大学   讲师

2021.12~至今        北京交通大学   副教授

研究方向

  • 热能工程
  • 航天动力工程

招生专业

  • 动力工程及工程热物理硕士
  • 能源动力硕士

科研项目

  • 红果园省部级"企事业"(新): 高温气冷堆堆内旁流评价计算项目, 2024-2027
  • 红果园国家级"四总部": 二硝酰胺铵基绿色液体空间发动机电点火关键技术, 2024-2025
  • 红果园(横): 基于典型应用场景的CFD程序验证与关键参数不确定性量化分析研究, 2024-2024
  • 红果园国家级“科技委”: 某项目涡轮专题分承包合同(北交大)-航空发动机热端部件“智能”热防护关键技术研究, 2022-2025
  • 自然科学横向项目: 祭祀焚烧设备燃烧及除尘过程的数值模拟研究, 2023-2024
  • 自然科学横向项目: 反应加热炉炉膛燃烧及炉管传热数值模拟, 2023-2023
  • 红果园(横): 重型燃气轮机多组分气体燃料燃烧室气相辐射模型, 2022-2025
  • 自然科学类人才基金项目: 基于机器学习的气体火焰温度和浓度测量方法研究, 2021-2024
  • 国家自然科学基金"青年基金": 基于深度神经网络的气固总体重排辐射特性和辐射传输规律, 2021-2023
  • 北京交大创新科技中心(暂停立项): 高温高压腔煤粉进料系统, 2018-2018
  • 北京交大创新科技中心(暂停立项): 石墨加热炉的制作及线性控温方法研究, 2018-2018
  • 基础研究项目: 气固辐射换热及其对煤粉燃烧过程的影响研究, 2018-2021
  • 国家重点研发计划: 高安全高比能锂离子电池系统的研发与集成应用, 2017-2021
  • 国家重点研发计划: 炉内流动传热及化学反应等复杂作用对NOx生成的影响规律研究, 2017-2023

教学工作


  • 工程热力学
  • 节能技术与应用
  • 工程图学基础
  • 人工智能导论
  • 机器学习与Python编程


论文/期刊

[1]     Xin Wang, Yucheng Kuang, Chaojun Wang. A novel spectral model for prediction of nongray radiative properties in gaseous combustion [J]. International Communications in Heat and Mass Transfer, 2024, 155: 107556.

[2]     Chaojun Wang, Hongyuan Di, Hongjun Lin, Shoutang Shang, Lixin Yang. Spectral effects of radiating gases and soot on an experimental aero-engine combustion chamber using full-spectrum k-distribution method [J]. Applied Thermal Engineering, 2024, 246: 122925.

[3]     Yucheng Kuang, Dawei Han, Zheqi Xu, Yafei Wang, Chaojun Wang. Numerical study on combustion characteristics of ammonia mixture under different combustion modes [J]. International Journal of Hydrogen Energy, 2024, 54: 1403-1409.

[4]     Chaojun Wang, Hongyuan Di, Hongjun Lin, Shoutang Shang, Lixin Yang. Applications of weighted-sum-of-gray-gas model with soot to an experimental aero-engine combustion chamber [J]. Applied Thermal Engineering, 2024, 236 Part B: 121511.

[5]     匡玉成,王亚飞,韩大伟,王超俊. 过量空气系数和氨气浓度对CH4/NH3 MILD燃烧特性的数值研究 [J]. 中国电机工程学报, 2023.

[6]     Chaojun Wang, Di He, Boshu He, Yucheng Kuang. Multiphase radiation characteristics of a laboratory-scale pulverized coal flame [J]. Journal of Thermophysics and Heat Transfer, 2022, 37(2): 477-490.

[7]     Di He , Yusong Yu , Yucheng Kuang , Chaojun Wang. Analysis of EDC constants for predictions of methane MILD combustion [J]. Fuel, 2022, 324: 124542.

[8]     Chaojun Wang, Michael F. Modest, Tao Ren, Jian Cai, Boshu He. Comparison and refinement of the various full-spectrum k-distribution and spectral line weighted-sum-of-gray-gases models for nonhomogeneous media [J]. Journal of Quantitative Spectroscopy & Radiative Transfer, 2021, 271: 107695

[9]     Ya Zhou, Chaojun Wang, Tao Ren, Changying Zhao. A machine learning based full-spectrum correlated k-distribution model for nonhomogeneous gas-soot mixtures [J]. Journal of Quantitative Spectroscopy & Radiative Transfer, 2021, 268: 107628.

[10]  Yucheng Kuang, Boshu He, Wenxiao Tong, Chaojun Wang. Flow and reaction characteristics at different oxygen concentrations and inlet velocities in pulverized coal MILD combustion. Journal of the energy institute, 2021, 94: 63-72.

[11]  Yucheng Kuang, Boshu He, Wenxiao Tong, Chaojun Wang, Di He. Thermogravimetric analysis of pulverized coal in low oxygen atmosphere. Thermochimica Acta, 2021, 703: 178992.

[12]  Yucheng Kuang, Boshu He, Wenxiao Tong, Chaojun Wang, Di He. Numerical analyses of MILD and conventional combustions with the Eddy Dissipation Concept (EDC). Energy, 2021, 237:121662.

[13]  Di He, Yusong Yu, Yucheng Kuang, Chaojun Wang. Model Comparisons of Flow and Chemical Kinetic Mechanisms for Methane-Air Combustion for Engineering Applications. Applied sciences-basel, 2021, 11: 4107.

[14]  Ya Zhou, Chaojun Wang, Tao Ren. A machine learning based efficient and compact full-spectrum correlated k-distribution model [J]. Journal of Quantitative Spectroscopy & Radiative Transfer, 2020, 254: 107199.

[15]  Yucheng Kuang, Boshu He, Wenxiao Tong, Chaojun Wang, Jingge Song, Zhaoping Ying. Numerical simulation of pulverized coal MILD-oxy combustion under different oxygen concentrations. Journal of the Energy Institute, 2020, 93(4): 1713-1725.

[16]  Yucheng Kuang, Boshu He, Wenxiao Tong, Chaojun Wang, Zhaoping Ying. Effects of oxygen concentration and inlet velocity on pulverized coal MILD combustion. Energy, 2020, 198: 117376.

[17]  Chaojun Wang, Boshu He, Michael F. Modest. Full-spectrum correlated-k-distribution look-up table for radiative transfer in nonhomogeneous particulate media [J]. International Journal of Heat and Mass Transfer, 2019, 137: 1053-1063.

[18]  Chaojun Wang, Michael F. Modest, Boshu He. Full-spectrum correlated-k-distribution look-up table for use with radiative Monte Carlo solvers [J]. International Journal of Heat and Mass Transfer, 2019, 131: 167-175.

[19]  Chaojun Wang, Boshu He, Michael F. Modest, Tao Ren. Efficient full-spectrum correlated-k-distribution look-up table [J]. Journal of Quantitative Spectroscopy & Radiative Transfer, 2018, 219: 108-116.

[20]  Chaojun Wang, Michael F. Modest, Boshu He. Improvement of full-spectrum k-distribution method using quadrature transformation [J]. International Journal of Thermal Sciences 2016, 108: 100-107.

[21]  Chaojun Wang, Michael F. Modest, Boshu He. Technical note: Full-spectrum k-distribution look-up table for nonhomogeneous gas-soot mixtures [J]. Journal of Quantitative Spectroscopy and Radiative Transfer 2016, 176: 129-136.

[22]  Chaojun Wang, Wenjun Ge, Michael F. Modest, Boshu He. A full-spectrum k-distribution look-up table for radiative transfer in nonhomogeneous gaseous media [J]. Journal of Quantitative Spectroscopy and Radiative Transfer 2016, 168: 46-56.

[23]  Chaojun Wang, Boshu He, Linbo Yan, Xiaohui Pei, Shinan Chen. Thermodynamic analysis of a low-pressure economizer based waste heat recovery system for a coal-fired power plant [J]. Energy 2014, 65: 80-90.

[24]  Chaojun Wang, Boshu He, Shaoyang Sun, Ying Wu, Na Yan, Linbo Yan, Xiaohui Pei. Application of a low pressure economizer for waste heat recovery from the exhaust flue gas in a 600 MW power plant [J]. Energy, 2012, 48(1): 196-202.

[25]  王超俊,何頔,裴晓辉,严林博,段志鹏,何伯述.高斯型求积方法对全光谱K分布模型精度的影响 [J].中国电机工程学报,35(24)20156421-6430

[26]  Chaojun Wang, Wenjun Ge, Michael F. Modest, Jian Cai. A full-spectrum k-distribution look-up table for radiative transfer in nonhomogeneous gaseous media [C]. //Proceedings of CHT-15, ICHMT International Symposium on Advances in Computational Heat Transfer, May 25-29, 2015, Rutgers University, Piscataway, USA.

[27]  Boshu He, Chaojun Wang, Shaoyang Sun, Ying Wu, Na Yan, Linbo Yan, Xiaohui Pei. Feasibility, economy and implementation of waste heat recovering from the exhausted flue gas with low-pressure economizer for a 600MW power plant [C]. //Unesco Surported VIth Dubrovnik Conference on Sustainable Development of Energy Water and Environment System, (SDWS2011.0544) September 25-29, 2011, Dubrovnik, Croatia.

 


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