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朱群益
2023-05-10 20:05
  • 朱群益
  • 朱群益 - 教授 博导-哈尔滨工业大学-能源科学与工程学院-个人资料

近期热点

资料介绍

个人简历


朱群益(1962- ),男,江苏南通人。1979年进入哈尔滨工业大学热能工程专业学习,相继完成了学士、硕士、博士学位的学习。1986年留校任教,1993年晋升为副教授,1999年晋升为教授,2006年被增选为博士生指导教师。
荣誉称号
高性能中心给粉旋流煤粉燃烧技术,获2015年度黑龙江省国家技术发明二等奖
2000年度国家技术发明二等奖及黑龙江省科技进步一等奖
工作经历
1986年
留校任教
1993年
晋升为副教授
1995年
硕士生指导教师
1999年
晋升为教授
教育经历
1979年进入哈尔滨工业大学热能工程专业学习,相继完成了学士、硕士、博士学位的学习。
讲授课程
先后为本科生开设了《锅炉水动力学》、《热力系统及设备》、《供热工程》及《新能源利用》等课程,为硕士研究生开设了《现代热物理测试技术》课程。

研究领域


"1.W型火焰锅炉多次引射分级原理及技术的研究
研究W型火焰锅炉炉内单相、气固两相流动、燃烧及NOx生成特性, 开发具有自主知识产权的W型火焰锅炉低NOx燃烧技术,目前已形成了W火焰锅炉风包粉高效低氮氧化物燃烧技术。该技术已在4台引进国外技术的300MW、660MW机组上获得了应用。提出了W火焰锅炉多次引射分级组织原理及技术,已被哈尔滨锅炉厂用于2台600MW、世界首台350 MW超临界机组锅炉设计,其中2台600MW超临界机组锅炉已投运,取得较好的运行性能。
2.低污染煤粉燃烧技术研究3煤气化原理及技术
针对我国动力燃煤特点,开发了中心给粉旋流煤粉燃烧技术。研究旋流燃烧器出口区域,不同粒径的煤粉及空气的轴向、切向、径向速度分布、中心回流区尺寸及位置、颗粒浓度分布、相间速度滑移等流动特性,及中心给粉旋流煤粉燃烧技术的燃烧特性。
将中心给粉旋流煤粉燃烧技术与OFA等技术相结合,实现采用旋流煤粉燃烧方式锅炉的低NOx燃烧。该技术已在32台引进国外技术的300MW、600MW机组上获得应用。上海锅炉厂开始推广这一技术。
3.煤气化原理及技术
开展液态排渣煤气化原理及技术研究。"

近期论文


1. Zhengqi Li, Chunlong Liu, Qunyi Zhu, Weiguang Kong, Yang Zhao, Zhichao Chen. Experimental Studies on the Effect of the Pulverized Coal Concentration on Lean-Coal Combustion in a Lateral-Ignition Tiny-oil Burner. Energy & Fuels, 2010, 24: 4161–4165
2. Zhengqi Li, Min Kuang, Qunyi Zhu, Pengfei Yang, Yuangang Wu, and Shantian Xu. Staged-Air Ratio Optimization within a Cold Small-Scale Model for a MBEL Down-Fired Pulverized-Coal 300 MWe Utility Boiler. Energy & Fuels, 2010, 24: 4883–4892
3. Jianping Jing, Zhengqi Li, Qunyi Zhu, Zhichao Chen, Lin Wang, Lizhe Chen. Influence of the outer secondary air vane angle on the gas/particle flow characteristics near the double swirl flow burner region. Energy, 2011, 36: 258–267
4. Jianping Jing, Zhengqi Li, Qunyi Zhu, Zhichao Chen, and Feng Ren. Influence of primary air ratio on flow and combustion characteristics and NOx emissions of a new swirl coal burner. Energy, 2011, 36(2): 1206–1213
5. Zhichao Chen, Zhengqi Li, Qunyi Zhu, Jianping Jing. Gas/particle flow and combustion characteristics and NOx emissions of a new swirl coal burner. Energy, 2011, 36(2): 709–723
6. Zhichao Chen, Zhengqi Li, Qunyi Zhu, Lianjie Yang, Lizhe Chen. Concentrator Performance within a Centrally Fuel-Rich Primary Air Burner: Influence of Multiple Levels. Energy, 2011, 36(7): 4041-4047
7. Zhengqi Li, Min Kuang, Qunyi Zhu, Pengfei Yang. Flow-Field Deflection within a Cold Small-Scale Model for a Down-Fired 300 MWe Utility Boiler at Asymmetric Staged-Air Distribution. Energy & Fuels, 2011, 25(1): 86–96
8. Zhengqi Li, Guangkui Liu, Qunyi Zhu, Zhichao Chen, Feng Ren. Combustion and NOx emission characteristics of a retrofitted down-fired 660 MWe utility boiler at different loads. Applied Energy, 2011, 88: 2400–2406
9. Zhengqi Li, Subo Fan, Qunyi Zhu, Wei Su, Zhichao Chen, Yukun Qin. Influence of Staged-air Flow on Flow Characteristics in a Scale Model of a Down-fired Utility Boiler with Swirl Burners: An Experimental Study. Fuel, 2012, 93: 160–166
10. Min Kuang, Zhengqi Li, Qunyi Zhu, Hongyu Zhang, Xingying Zhu, Yan Zhang. Inner- and Outer-Secondary Air Distance-Effect Study within a Cold Small-Scale Model of a New Down-Fired 600 MWe Supercritical Utility Boiler. Energy & Fuels, 2012, 26: 417–424
11. Zhengqi Li, Min Kuang, Qunyi Zhu, Jinping Lai, Yan Zhang. Aerodynamic characteristics within a cold small-scale model for a down-fired 350 MWe utility boiler applying a multiple-injection and multiple-staging technology: Effect of the staged-air declination angle. Experimental Thermal and Fluid Science, 2012, 38: 184–194
12. Min Kuang, Zhengqi Li, Qunyi Zhu, Yang Wang, Lizhe Chen, Yan Zhang. Experimental gas/particle flow characteristics of a down-fired 600 MWe supercritical utility boiler at different staged-air ratios. Energy, 2012, 42: 411–423
13. Min Kuang, Zhengqi Li, Qunyi Zhu, Lizhe Chen, Yan Zhang, Jinping Lai. Gas/particle flow characteristics, combustion and NOx emissions of down-fired 600 MWe supercritical utility boilers with respect to two configurations of combustion systems. Energy & Fuels,2012,26: 3316–3328
14. Guangkui Liu, Qunyi Zhu, Zhengqi Li, Xingying Zhu, Zhichao Chen. New over-fire air arrangement and its air ratio optimization determined by aerodynamic characteristics in a cold small-scale model for a down-fired 660-MWe utility boiler. Experimental Thermal and Fluid Science, 2013,44:475–482
15. Min Kuang, Qunyi Zhu, Zhengqi Li, Xiang Zhang. Numerical investigation on combustion and NOx emissions of a down-fired 350 MWe utility boiler with multiple injection and multiple staging: Effect of the air stoichiometric ratio in the primary combustion zone. Fuel Processing Technology, 2013, 109: 32-42
16. Min Kuang, Zhengqi Li, Qunyi Zhu. Evaluation on cold modeling flow field for a down-fired 600 MWe supercritical boiler with multi-injection and multi-staging: A burner location experimental optimization and its validation by real-furnace measurements. Experimental Thermal and Fluid Science, 2013,45:213–220
17. Min Kuang, Zhengqi Li, Qunyi Zhu, Yan Zhang. Performance assessment of staged-air declination in improving asymmetric gas/particle flow characteristics within a down-fired 600 MWe supercritical utility boiler. Energy, 2013,49:423–433
18. Min Kuang, Zhengqi Li, Qunyi Zhu, Hongyu Zhang. Characterization of gas/particle flows with respect to staged-air ratio for a down-fired 600 MWe supercritical utility boiler with multiple injection and multiple staging: a lab-scale study. International Journal of Thermal Sciences, 2013,70:154–165
19. Subo Fan, Zhengqi Li, and Qunyi Zhu. Influence of Inner Secondary Air Vane Angle on Combustion Characteristics and NOx Emissions of a Down-fired Pulverized-coal 300 MWe Utility Boiler. Combustion Science and Technology, 2013, 185(6): 975-989
20. Min Kuang, Zhengqi Li, Qunyi Zhu, Chunlong Liu. Arch- and wall-air distribution optimization for a down-fired 350 MWe utility boiler: A cold-modeling experimental study accompanied by real-furnace measurements. Applied Thermal Engineering, 2013, 54: 226–236.
21. Zhengqi Li, Song Li, Qunyi Zhu, Xiqian Zhang, Guipeng Li, Yong Liu, Zhichao Chen, Jiangquan Wu. Effects of particle concentration variation in the primary air duct on combustion characteristics and NOx emissions in a 0.5-MW test facility with pulverized coal swirl burners. To be published in Applied Thermal Engineering

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