博彩导航

研究领域

  清洁高效燃烧；船舶尾气净化

个人简介

        1982年生，江西高安人，教授/博导，任教于宁波大学船舶与海洋工程学科，2012年12月博士毕业于哈尔滨工业大学热能工程专业，2015年12月浙江大学动力工程及工程热物理博士流动站出站。主要从事煤的清洁高效燃烧和船舶尾气净化方面的研究工作，具体研究方向包括：(1) W火焰炉清洁高效燃烧；(2) 船舶尾气净化；(3) 层燃炉高效低NOx燃烧。相关研究工作获主持国家重点研发计划青年项目1项、国家自然科学基金面上项目1项、国家自然科学基金青年项目1项、浙江省自然科学基金1项、中国博士后科学基金1项、省属高校基本科研业务费项目1项、宁波市自然科学基金1项目。研究成果以第一及通讯作者在《Environmental Science & Technology》、《Applied Energy》、《Energy》、《Fuel》、《Energy & Fuels》、《Energy Conversion and Management》、《Fuel Processing Technology》、《International Journal of Thermal Sciences》等权威期刊上发表SCI论文50多篇，在《Energy》上发表长篇英文综述1篇；获英国发明专利授权1项、中国发明专利授权近20项。先后入选浙江省高校创新领军人才、浙江省高校中青年学科带头人、宁波市领军人才、宁波市B类专家、郑州市创新创业领军人才、宁波市领军与拔尖人才第一层次、浙东青年学者等人才培养计划。获得中国发明协会发明创新一等奖、浙江省工程热物理学会青年科技奖、黑龙江省专利优秀奖。

研究成果

主持项目：

1) 国家重点研发计划青年项目：硫和微粒排放双达标的船舶尾气梯级洗涤装置关键技术研究，2016YFC0205800，213万，2016.7~2019.12，已结题；

2) 国家自然科学基金面上项目：梯级拱型W火焰布局下深度空气分级、烟气再循环和细煤粉再燃的低NOx燃烧耦合作用研究，52276122，54万，2023.1~2026.12，在研；

3) 国家自然科学基金青年项目：W火焰炉炉内流场偏斜与不对称燃烧的形成机制研究，51306167，25万，2014.1~2016.12，已结题；

4) 浙江省自然科学基金项目：基于四拱双W火焰的炉内流动、煤燃烧和NOx生成特性研究，LY18E060002，9万，2018.1~2020.12，已结题；

5) 中国博士后科学基金面上项目：对称配风条件下W火焰炉内偏斜气固两相流研究，2014M551733，5万，2014.1~2015.12已结题；

6) 省属高校基本科研业务费项目：梯级拱型W火焰高效低NOx燃烧研究，SJLY2022009，8万，2022.1~2024.12，在研；

7) 横向项目：克拉玛依市独山子区集中供热系统优化提升项目改造-低氮燃烧技术服务，120万，2021.1~2022.5，已结题

发表SCI论文：

1. Xiu Wang, Min Kuang*, Shuting Cheng, et al. Establishing an appropriate overfire air angle at the furnace throat of a low-NOx W-shaped flame furnace. Applied Thermal Engineering, 2022, 212: 118534.

2. Min Kuang*, Xiaojuan Zhao, Jialin Wang, et al. Upgrading the strengthened low-NO_x and high-burnout combustion performance by staging the hopper air in a down-fired furnace. Fuel, 2021, 294: 120582.

3. Long Jiao, Min Kuang*, Yangyang Chen, et al. Detailed measurements of in-furnace gas temperature and species concentration distribution regarding the primary-air distribution mode in a spreader and reversal chain-grate furnace. Energy, 2021, 235: 121384.

4. Min Kuang*, Jialin Wang, Xiu Wang, et al. In-furnace flow field, coal combustion and NO_x emission characteristics regarding the staged-air location in a cascade-arch down-fired furnace. Journal of the Energy Institute, 2021, 98: 259–270.

5. Sili Wu, Min Kuang*, Minsen Zhao, et al. ASPEN PLUS desulfurization simulations for the scrubber of a large-scale marine diesel engine: main scrubbing section’s desulfurization share optimization and superiority confirmation for the seawater/seawater cascade-scrubbing solution. Environmental Science and Pollution Research, 2021, 28: 22131–22145.

6. Xiaojuan Zhao, Min Kuang*, Sheng Liu, et al. Impact of the upper/lower furnace depth ratio on the strengthened low-NO_x combustion performance in a two-stage W-shaped flame furnace. Asia-Pacific Journal of Chemical Engineering, 2021, 16: e2640.

7. Minsen Zhao, Min Kuang*, Sili Wu, et al. Desulfurization performance of a large-scale marine diesel engine's scrubber with packing scrubbing: Validation of design parameters based on ASPEN PLUS simulations. Asia-Pacific Journal of Chemical Engineering, 2021, 16: e2619.

8. Haiqian Wu, Min Kuang*, Jialin Wang, et al. Lower-arch location effect on the flow field, coal combustion, and NO_x formation characteristics in a cascade-arch, down-fired furnace. Applied Energy, 2020, 268: 115032.

9. Jialin Wang, Min Kuang*, Xiaojuan Zhao, et al. Trends of the low-NO_x and high-burnout combustion characteristics in a cascade-arch, W-shaped flame furnace regarding with the staged-air angle. Energy, 2020, 212: 118768.

10. Min Kuang*, Jinxin Wang, Xuehui Hu, et al. Seawater/seawater cascade-scrubbing desulfurization performance for exhaust gas of a 162-kW marine diesel engine. Journal of Environmental Engineering, 2020, 146(1): 04019090.

11. Haiqian Wu, Min Kuang*, Jialin Wang, et al. Low-NO_x and high-burnout combustion characteristics of a cascade-arch-firing, W-shaped flame furnace: Numerical simulation on the effect of furnace arch configuration. Environmental Science & Technology, 2019, 53(19): 11597–11612.

12. Min Kuang*, Xuehui Hu, Guohua Yang, et al. Seawater/alkaline liquid cascade-scrubbing desulfurization performance for the exhaust gas of a 162-kW marine diesel engine. Asia-Pacific Journal of Chemical Engineering, 2019, 14(6): e2370.

13. Jinxin Wang, Min Kuang*, Guohua Yang, et al. Desulfurization performance comparison of a 162-kW marine diesel engine's exhaust gas based on two kinds of alkaline liquid scrubbing models. Asia-Pacific Journal of Chemical Engineering, 2019, 14(4): e2323.

14. Min Kuang*, Haiqian Wu, Qunyi Zhu, et al. Establishing an overall symmetrical combustion setup for a 600 MWe supercritical down-fired boiler: A numerical and cold-modeling experimental verification. Energy, 2018, 147: 208–225.

15. Min Kuang*, Guohua Yang, Qunyi Zhu, et al. Effect of burner location on flow-field deflection and asymmetric combustion in a 600 MWe supercritical down-fired boiler. Applied Energy, 2017, 206: 1393–1405.

16. Zhongqian Ling, Bo Ling, Min Kuang*, et al. Comparison of airflow, coal Combustion, NOx emissions, and slagging characteristics among three large-scale MBEL down-fired Boilers manufactured at different times. Applied Energy, 2017, 187: 689–705.

17. Min Kuang*, Qunyi Zhu, Guohua Yang, et al. The fate of shrinking boiler nose to improve the flow-field deflection and asymmetric combustion in a 600 MWe supercritical down-fired boiler. Fuel Processing Technology, 2017, 167: 371–381.

18. Min Kuang*, Qunyi Zhu, Zhongqian Ling, et al. Improving gas/particle flow deflection and asymmetric combustion of a 600 MWe supercritical down-fired boiler by increasing its upper furnace height. Energy, 2017, 127: 581–593.

19. Yanhui Wei, Min Kuang*, Qunyi Zhu, et al. Alleviating gas/particle flow deflection and asymmetric combustion in a 600 MWe supercritical down-fired boiler by expanding its furnace throat space. Applied Thermal Engineering, 2017, 123: 1201–1213.

20. Min Kuang*, Guohua Yang, Qunyi Zhu, et al. Trends of the flow-field deflection and asymmetric combustion in a 600 MWe supercritical down-fired boiler with respect to the furnace arch’s burner span. Energy & Fuels, 2017, 31(11): 12770–12779.

21. Min Kuang, Zhengqi Li, Zhongqian Ling*, et al. Improving flow and combustion performance of a large-scale down-fired furnace by shortening secondary-air port area. Fuel, 2014, 121: 232–239.

22. Min Kuang, Zhengqi Li, Zhongqian Ling*, et al. Effect of overfire air angle on flow characteristics within a small-scale model for a deep-air-staging down-fired furnace. Energy Conversion and Management, 2014, 79: 367–376.

23. Min Kuang*, Zhengqi Li. Review of gas/particle flow, coal combustion, and NO_x emission characteristics within down-fired boilers. Energy, 2014, 69: 144–178.

24. Min Kuang, Zhengqi Li, Zhongqian Ling*, et al. Evaluation of staged air and overfire air in regulating air-staging conditions within a large-scale down-fired furnace. Applied Thermal Engineering, 2014, 67(1-2): 97–105.

25. Min Kuang, Zhihua Wang*, Yanqun Zhu, et al. Regulating low-NO_x and high-burnout deep-air-staging combustion under real-furnace conditions in a 600 MW_e down-fired supercritical boiler by strengthening the staged-air effect. Environmental Science & Technology, 2014, 48(20): 12419–12426.

26. Min Kuang, Zhengqi Li, Zhihua Wang*, et al. Combustion and NO_x emission characteristics with respect to staged-air damper opening in a 600 MW_e down-fired pulverized-coal furnace under deep-air-staging conditions. Environmental Science & Technology, 2014, 48(1): 837–844.

27. Min Kuang, Zhengqi Li, Zhongqian Ling*, et al. Characterization of coal combustion and steam temperature with respect to staged-air angle in a 600 MW_e down-fired boiler. Energy & Fuels, 2014, 28(6): 4199–4205.

28. Zhongqian Ling, Min Kuang*, Xianyang Zeng, et al. Combustion flexibility of a large-scale down-fired furnace with respect to boiler load and staging conditions at partial loads. Energy & Fuels, 2014, 28(1): 725–734.

29. Min Kuang, Qunyi Zhu, Zhengqi Li*, et al. Numerical investigation on combustion and NO_x emissions of a down-fired 350 MW_e 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.

30. Min Kuang, Zhengqi Li*, Chunlong Liu, et al. Experimental study on combustion and NO_x emissions for a down-fired supercritical boiler with multiple-injection multiple-staging technology without overfire air. Applied Energy, 2013, 106: 254–261.

31. Min Kuang, Zhengqi Li*, Qunyi Zhu, et al. Characterization of gas/particle flows with respect to staged-air ratio for a down-fired 600 MW_e supercritical utility boiler with multiple injection and multiple staging: a lab-scale study. International Journal of Thermal Sciences, 2013, 70: 154–165.

32. Min Kuang, Zhengqi Li*, Qunyi Zhu, et al. Cold-modeling flow characteristics for a 300-MW_e down-fired furnace at different secondary-air distributions. International Journal of Thermal Sciences, 2013, 68: 148–157.

33. Min Kuang, Zhengqi Li*, Qunyi Zhu, et al. Arch- and wall-air distribution optimization for a down-fired 350 MW_e utility boiler: A cold-modeling experimental study accompanied by real-furnace measurements. Applied Thermal Engineering, 2013, 54(1): 226–236.

34. Min Kuang, Zhengqi Li*, Qunyi Zhu, et al. Performance assessment of staged-air declination in improving asymmetric gas/particle flow characteristics within a down-fired 600 MW_e supercritical utility boiler. Energy, 2013, 49: 423–433.

35. Min Kuang, Zhengqi Li*, Chunlong Liu, et al. Overall evaluation of combustion and NO_x emissions for a down-fired 600 MW_e supercritical boiler with multiple injection and multiple staging. Environmental Science & Technology, 2013, 47(9): 4850–4858.

36. 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.

37. Min Kuang*, Zhengqi Li, Xinjing Jing, et al. Characterization of combustion and NO_x emissions with respect to over-fire air damper opening in a down-fired pulverized-coal furnace. Energy & Fuels, 2013, 27(9): 5518–5526.

38. Min Kuang, Zhengqi Li*, Chunlong Liu, et al. Evaluation of overfire air behavior for a down-fired 350 MW_e utility boiler with multiple injection and multiple staging. Applied Thermal Engineering, 2012, 48: 164–175.

39. Zhengqi Li*, Min Kuang, Qunyi Zhu, et al. Aerodynamic characteristics within a cold small-scale model for a down-fired 350 MW_e 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.

40. Min Kuang, Zhengqi Li*, Qunyi Zhu, et al. Experimental gas/particle flow characteristics of a down-fired 600 MW_e supercritical utility boiler at different staged-air ratios. Energy, 2012, 42(1): 411–423.

41. Min Kuang, Zhengqi Li*, Yan Zhang, et al. Asymmetric combustion characteristics and NO_x emissions of a down-fired 300 MW_e utility boiler at different boiler loads. Energy, 2012, 37(1): 580–590.

42. Min Kuang, Zhengqi Li*, Qunyi Zhu, et al. Gas/particle flow characteristics, combustion and NO_x emissions of down-fired 600 MWe supercritical utility boilers with respect to two configurations of combustion systems. Energy & Fuels, 2012, 26(6): 3316–3328.

43. Min Kuang, Zhengqi Li*, Qunyi Zhu, et al. Inner and outer secondary-air distance-effect study within a cold small-scale model of a new down-fired 600 MW_e supercritical utility boiler. Energy & Fuels, 2012, 26(1): 417–424.

44. Min Kuang, Zhengqi Li*, Pengfei Yang, et al. Flow-field deflection characteristics within a cold small-scale model for a down-fired 300 MW_e utility boiler at different secondary-air angles. Fuel Processing Technology, 2011, 92(6): 1261–1271.

45. Min Kuang, Zhengqi Li*, Shantian Xu, et al. Improving combustion characteristics and NO_x emissions of a down-fired 350 MW_e utility boiler with multiple injection and multiple staging. Environmental Science & Technology, 2011, 45(8): 3803–3811.

46. Min Kuang, Zhengqi Li*, Shantian Xu, et al. Impact of overfire air location on combustion improvement and NO_x abatement of a down-fired 350 MW_e utility boiler with multiple injection and multiple staging. Energy & Fuels, 2011, 25(10): 4322–4332.

47. Min Kuang, Zhengqi Li*, Pengfei Yang, et al. Staged-air ratio optimization for a new down-fired technology within a cold small-scale model of a 350 MW_e utility boiler. Energy & Fuels, 2011, 25(4): 1485–1496.

48. Zhengqi Li*, Min Kuang, Pengfei Yang, et al. Flow-field deflection within a cold small-scale model for a down-fired 300 MW_e utility boiler at asymmetric staged-air distribution. Energy & Fuels, 2011, 25(1): 86–96.

49. Zhengqi Li*, Min Kuang, Jia Zhang, et al. Influence of staged-air on airflow, combustion characteristics and NO_x emissions of a down-fired pulverized-coal 300 MW_e utility boiler with direct flow split burners. Environmental Science & Technology, 2010, 44(3): 1130–1136.

50. Zhengqi Li*, Min Kuang, Qunyi Zhu, et al. Staged-air ratio optimization within a cold small-scale model for a MBEL down-fired pulverized-coal 300 MW (electrical) utility boiler. Energy & Fuels, 2010, 24(9): 4883–4892.

51. Min Kuang, Zhengqi Li*, Yunfeng Han, et al. Influence of staged-air declination angle on flow field deflection in a down-fired pulverized-coal 300 MW_e utility boiler with direct flow split burners. Energy & Fuels, 2010, 24(3): 1603–1610.

代表性发明专利：

1. 况敏, 凌忠钱, 曾宪阳. 一种对称燃烧的W型火焰锅炉, 发明专利号: ZL201410543855.9

2. 况敏, 王金鑫, 吴海茜, 等. 一种侧墙布置拱部燃烧器的对称燃烧W型火焰锅炉, 发明专利号: ZL20171010896667.8

3. 况敏, 吴海茜, 胡雪慧, 等. 一种侧墙主导对称燃烧的低氮高效燃尽W火焰锅炉, 发明专利号: ZL201810032042.1

4. Zhengqi Li, Zhichao Chen, Min Kuang, et al. Methods for multi-stage combustion with multi-ejection by a boiler. Great Britain Certificate of Grant of Patent, Patent Number: GB2486630, Publication Date: 11 April 2018.

获奖与荣誉

获奖：

  中国发明协会发明创新一等奖(2/6)、浙江省工程热物理学会青年科技奖(1/1)、黑龙江省专利优秀奖(3/9)

入选人才计划：

  浙江省高校创新领军人才、浙江省高校中青年学科带头人、宁波市领军人才、郑州市创新创业领军人才(200万)、宁波市甬江育才工程领军拔尖人才第一层次、宁波市B类专家、浙东青年学者

荣誉：

  哈尔滨工业大学优秀博士学位论文、宁波大学徐望月教授特别奖

社会兼职

  美国化学会员，《Environmental Science & Technology》、《Applied Energy》、《Energy》、《Fuel》、《Energy & Fuels》、《Fuel Processing Technology》等多个国际权威期刊特约审稿专家