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姓 名 罗自学 性 别
职 称 教授(博导) 毕业学校 华中科技大学
个人主页 http://sklcc.hust.edu.cn/info/1029/1744.htm
联系方式
邮 箱
通讯地址 华中科技大学清洁能源大楼S1308
个人资料简介
华中科技大学煤燃烧国家重点实验室教授、博士生导师,国家环境保护燃煤低碳利用与重金属污染控制工程技术中心副主任,美国康涅狄格大学机械工程系访问学者。从事燃烧检测及优化控制、热力系统分布参数建模、固废热转化利用及富氧燃烧诊断控制技术。主持国家自然科学基金面上项目2项,科技部863项目1项,国家科技重大专项课题及基金重点项目课题各1项;主持宝钢集团、广东能源集团、国家电投、国家能源集团等企业外委项目,参与973、中美清洁能源中心、国家及省、市发改委等项目二十余项。以第一或通讯作者发表SCI收录论文40余篇;以第一申请人获批国家专利8项、计算机软件著作权4项。长期在本领域一线工作,在创新理论、知识转移和转化、学科平台建设等方面具备突出的能力,尤其是针对能源流的检测及热力转化等方面有较长期的积累。作为CCUS研发的核心成员,组织并完成了包括3MW、35MW全流程富氧燃烧平台的建设、调试和运行,聚焦“能耗双控”及“双碳”行业的工程性放大和应用研究。

教育及工作经历

    1988.9 – 1992.6, 南方冶金学院, 矿业机械, 学士
    1992.9 – 1995.6, 贵州工学院, 机械制造, 硕士
    1995.7 – 2002.8, 武汉天元锅有限公司, 产品开发部, 高级工程师
    2002.9 – 2007.3, 华中科技大学, 热能工程, 博士
    2004.4 – 2017.10, 华中科技大学, amjs澳金沙门线路首页, 副教授
    2015.10 – 2016.10, 康涅狄格大学, 机械工程系, 访问学者
    2017.11至今, 华中科技大学, amjs澳金沙门线路首页, 教授

研究方向

    1、燃烧检测、诊断及优化控制
    2、热力系统分布参数建模
    3、多源有机固废热转化
    4、氢能的制、储、输运的流程优化;储能及多元混储过程的能量转换

科研项目

    1、国家重点研发计划项目,2019YFC1904003,多源有机固废热转化与能源利用关键技术及装备,2020.01-2023.12,主持
    2、国家自然科学基金委员会重点项目,42030807,煤中有害矿物质富集分异特性及其热迁变影响机制,2021.01-2025.12,子课题负责人
    3、国家重点研发计划项目,2022YFB4100402,锅炉超低负荷稳燃机理及污染物迁移转化规律,2022.12-2025.11,子课题负责人
    4、国家自然科学基金面上项目,51776078,基于富氧燃烧锅炉的炉内和锅内过程耦合特性的研究,2018.01-2021.12,主持
    5、国家自然科学基金面上项目,51076049,超临界直流锅炉炉内热负荷分布参数检测及建模研究,2011.1-2013.12,主持
    6、国家科技部863项目,四角切圆燃煤锅炉高效低NOx排放优化运行新技术(2007AA05Z306),2008.1-2011.12,主持
    7、国家电投科技项目(武汉九州三维燃烧科技有限公司委托),煤与酒糟、污泥掺烧实验室分析研究,2019.11-2020.12,主持
    8、国家电投(原平)可再生能源有限公司,生物质气化燃气送氧化铝培烧炉燃烧关键技术研究,2023.4-2024.12,主持
    9、国家电投湖北公司,荆门绿动燃机电厂燃机掺氢燃烧的数值模拟,2022.4-2023.12,主持
    10、广州粤能电力科技开发有限公司(广州越秀区科技项目),二次再热机组的材料适应性及运行优化研究,2018.3-2020.3,主持

代表性论文与专利

    论文:
    1. Zixue Luo*, Zixuan Feng, Bo Wu and Qiang Cheng. Decoupling Investigation of Furnace Side and Evaporation System in a Pulverized-Coal Oxy-Fuel Combustion Boiler. Energies. 2022, 15(7), 2354-12.
    2. Jun Zhao, Jin Wang, Yifan Bie, Xiaopei Li, Qiang Cheng and Zixue Luo*. Simulation and experimental research on gas temperature deviation on converting to bituminous coals in tangentially lean coal boiler. Mechanical Engineering Journal. 2022, 9(6), 21-00417:1-13.
    3. Mengting Si, Qiang Cheng*, Lin Yuan, Zixue Luo*, Zuwei Xu, Haibo Zhao. Physical and chemical characterization of two kinds of coal-derived soot. Combustion and Flame. 2022, 238: 111759.
    4. Mengting Si, Qiang Cheng*, Lin Yuan. Yindi Zhang, Zixue Luo*. Study on the combustion behavior of single coal particle using a thermal-imaging technique,Combustion and Flame. 2022, 242: 112178.
    5. Shu Zheng, Weiguang Cai, Ran Sui, Zixue Luo*, Qiang Lu*. In-situ measurements of temperature and emissivity during MSW combustion using spectral analysis and multispectral imaging processing. Fuel. 2022, 323: 124328.
    6. Bowen Li, Bo Zhang, Jinlin Song, Run Hu, Hakan Ertürk, Zixue Luo*, Qiang Cheng*. Performance analysis of near-field tandem thermophotovoltaic systems based on radiative absorption distribution. International Communications in Heat and Mass Transfer. 2022, 139: 106488.
    7. Lu Lu, Bo Zhang, Han Ou, Bowen Li, Kun Zhou, Jinlin Song*, Zixue Luo*, Qiang Cheng*. Enhanced near-field radiative heat transfer between graphene/hBN systems. Small. 2022, 2108032.
    8. Bo Zhang, Lu Lu, Jinlin Song*, Zixue Luo*, Qiang Cheng*. Active control of near-field radiative heat transfer between InSb and graphene multilayered magneto-optical metamaterials. International Journal of Heat and Mass Transfer. 2022, 192: 122868.
    9. Lu Lu, Bo Zhang, Bowen Li,Jinlin Song, Zixue Luo, Qiang Cheng*. Weak magnetic field-controlled near-field radiative heat transfer between nanoparticle-based metamaterials. Optics Letters. 2022, 47(16): 4087.
    10. Jingbo Qi, Jinlin Song, Bo Zhang, Zixue Luo, Qiang Cheng*. Magnetically tunable dual-band terahertz absorption based on guided-mode resonance. Applied Optics. 2022, 61(14): 3939.
    11. Shu Zheng, Mingxuan Zhang, Mingyang Na, Yu Yang, Zixue Luo and Qiang Lu*. Calculations of Narrow-Band Transmissivity and the Planck Mean Absorption Coefficients of Carbon Dioxide Based on High-resolution Transmission Molecular Absorption, Hightemperature Molecular Spectroscopic and Carbon Dioxide Spectroscopic Databank Databases. ES Energy Environ. 2022, 17, 33-43.
    12. Yu Yang, Shu Zheng*, Yuzhen He, Mingxin Xu, Zixue Luo, and Qiang Lu*. Effect of pressure broadening on the radiative heat transfer by CO and CH4 gases using line-by-line method with latest high temperature database. Thermal Science. 2022, 26(5A): 3751-3761.
    13. 刘瑞东, 卓晓辉, 马仑, 程强, 罗自学*, 周怀春. W型燃煤锅炉掺烧酒糟的数值模拟[J]. 洁净煤技术, 2022, 28(3):65-71.
    14. 马燕熊,梁斯宇,罗自学*,天然气低氮燃烧器的数值模拟及实验研究,中国动力工程学会第九届青年学术年会,2022.8.19-21,长沙.
    15. Zixue Luo*, Wei Chen, Yue Wang, Qiang Cheng, Xiaohua Yuan, Zhigang Li, and Junjie Yang. Numerical Simulation of Combustion and Characteristics of Fly Ash and Slag in a “V-type” Waste Incinerator. Energies. 2021, 14(22): 7518.
    16. Mengting Si, Qiang Cheng∗, Lin Yuan, Zixue Luo*, Weijie Yan, Huaichun Zhou. Study on the combustion behavior and soot formation of single coal particle using hyperspectral imaging technique. Combustion and Flame. 2021, 233: 111568.
    17. Mengting Si, Qiang Cheng∗, Lin Yuan, Zixue Luo*, Zuwei Xu, Haibo Zhao. Physical and chemical characterization of two kinds of coal-derived soot. Combustion and Flame. 2022, 238: 111759.
    18. Jun Zhao, Jin Wang, Xiaopei Li, Qiang Cheng, Zixue Luo*, Simulation and experimental research on gas temperature deviation on retrofitting to bituminous coals in tangentially lean coal boiler. Proceedings of the International Conference on Power Engineering-2021 (ICOPE-2021) October 17 - 21, 2021, Kobe, Japan.
    19. Zixue Luo*, Danxia Xu, Yanxiong Ma, Qiang Cheng. Experimental Study on Co-Firing of Coal and Brewery Wastewater Sludge. Applied Sciences. 2020, 10: 7589.
    20. Kun Zhou, Qiang Cheng*, Lu Lu, Bowen Li, Jinlin Song, Mengting Si, Zixue Luo*. Multichannel tunable narrowband mid-infrared optical filter based on phase-change material Ge 2 Sb 2 Te 5 defect layers. Applied Optics. 2020, 59: 595-600.
    21. Shihao Zhang, Kun Zhou, Qiang Cheng*, Lu Lu, Bowen Li, Jinlin Song, Zixue Luo*. Tunable narrowband shortwave-infrared absorber made of a nanodisk-based metasurface and a phase-change material Ge 2 Sb 2 Te 5 layer. Applied Optics. 2020, 59: 6309-6314.
    22. Kun Zhou, Qiang Cheng*, Lu Lu, Bowen Li, Jinlin Song, Zixue Luo*. Dual-band tunable narrowband near-infrared light trapping control based on a hybrid grating-based Fabry–Perot structure. Optics Express. 2020, 28: 1647-1656.
    23. Bowen Li, Qiang Cheng*, Jinlin Song, Kun Zhou, Lu Lu, Zixue Luo*. Evaluation of performance of near-field thermophotovoltaic systems based on entropy analysis. Journal of Applied Physics. 2020, 127: 063103.
    24. Bo Zhang, Jinlin Song, Lu Lu, Bowen Li, Kun Zhou, Qiang Cheng*, and Zixue Luo*. Magnetic-field control of near-field radiative heat transfer between graphene-based hyperbolic metamaterials. Appl. Phys. Lett. 2020, 117: 163901.
    25. 罗自学,张 俊,陈 伟,程 强. 现役热电联产锅炉宽煤种适应性研究. 热力发电, 2020, 49(3): 130-136.
    26. Kun Zhou, Qiang Cheng, Jinlin Song, Lu Lu, and Zixue Luo, Highly efficient narrow-band absorption of a graphene-based Fabry–Perot structure at telecommunication wavelengths. Opt. Lett. 2019, 44: 3430-3433.
    27. Kun Zhou, Jinlin Song, Lu Lu, Zixue Luo, and Qiang Cheng, Plasmon-enhanced broadband absorption of MoS2-based structure using Au nanoparticles. Opt. Express. 2019, 27: 2305-2316.
    28. Danxia Xu, Xiteng Wu, Lun Ma, Xinyu Ning, Qiang Cheng, Zixue Luo. Co-firing characteristics and kinetic analysis of distillers’ grains/coal for power plant. IET Renewable Power Generation. 2019, 13(12): 2148-2155.
    29. Jinlin Song, Qiang Cheng, Zixue Luo, Xinping Zhou, Zhuomin Zhang. Modulation and splitting of three-body radiative heat flux via graphene/SiC core-shell nanoparticles. International Journal of Heat and Mass Transfer. 2019, 140: 80-87.
    30. Mengting Si, Qiang Cheng, Qi Zhang, Dongxu Wang, Zixue Luo. Simultaneous Reconstruction of the Temperature and Inhomogeneous Radiative Properties of Soot in Atmospheric and Pressurized Ethylene/Air Flames. Combustion Science and Technology. 2019, 1-17.
    31. Mengting Si, Qiang Cheng, Qi Zhang, Dongxu Wang, Zixue Luo*, Chun Lou. Study of temperature, apparent spectral emissivity, and soot loading of a single burning coal particle using hyper-spectral imaging technique. Combustion and Flame. 2019, 209: 267-277.
    32. Lu Lu, Jinlin Song, Kun Zhou, Han Ou, Qiang Cheng, Zixue Luo. Ultrafast Tunable Near-Field Radiative Thermal Modulator Made of Ge3Sb2Te6. Journal of Heat Transfer. 2019, 141(7).
    33. Yang Liu, Zixue Luo, Qiang Cheng. Radiative Heat Transfer in Two-Dimensional Cylindrical Medium Coupled with BRDF Surface. Journal of Thermophysics and Heat Transfer. 2019, 1-9.
    34. 邹彬,罗自学,陈金颖,刘壮,李斌. 基于无人机的抽水蓄能电站巡检方案分析. 微型电脑应用, 2019. 35(04): 62-64+75.
    35. 李斌,罗自学,陈金颖,蔡焕青,庞新. 无人机摄影测量在水电站库区地质灾害监测中的应用研究. 自动化与仪器仪表, 2019(05): 209-211+227.
    36. Jinlin Song, Lu Lu, Qiang Cheng, Zixue Luo. Three-Body Heat Transfer Between Anisotropic Magneto-Dielectric Hyperbolic Metamaterials. Journal of Heat Transfer. 2018, 140(8).
    37. Jinlin Song, Lu Lu, Qiang Cheng, Zixue Luo. Surface plasmon-enhanced optical absorption in monolayer MoS2 with one-dimensional Au grating. Journal of Quantitative Spectroscopy and Radiative Transfer. 2018, 211: 138-143.
    38. Junjun Guo, Tai Zhang, Xiaohong Huang, Wei Luo, Fan Hu, Zixue Luo, Pengfei Li, Zhaohui Liu. Oxy-Fuel Combustion Characteristics of Pulverized Coal in a 3 MW Pilot-Scale Furnace. Energy & Fuels. 2018, 32(10): 10522-10529.
    39. 余登美,娄春,黎康星,傅峻涛,程强,罗自学. 基于实验教学的火焰光谱测量系统设计及应用. 实验室科学, 2018. 21(02): 67-70.
    40. Zixue Luo*, Wenfeng Cheng, Bo Wu, Yongchun Zhao, Junying Zhang. A mode transition strategy from air to oxyfuel combustion in a 35 MW coal-fired power plant boiler. Korean Journal of Chemical Engineering. 2017, 34(5): 1554-1562.
    41. Zhuwei Liu, Shu Zheng, Zixue Luo*, Huaichun Zhou*. A new method for constructing radiative energy signal in a coal-fired boiler. Applied Thermal Engineering. 2016, 101: 446-454.
    42. Zixue Luo, Qin Xiang, Qiang Cheng, Chun Lou. Changing Characteristics of Flame Images Under Different Oxy-Fuel Atmospheres in a 3-MW Pilot-Scale Furnace. IEEE Trans. Instrum. Meas. 2016, 65(10).
    43. Zixue Luo*, Wenfeng Cheng, Zhaohui Liu. Shift operation in a pilot-scale oxy-fuel combustion furnace. ISA. 2016 at Charlotte, NC, USA.
    44. Guangmeng Wang, Zixue Luo*, Junying Zhang, Yongchun Zhao. Modes of Occurrence of Fluorine by Extraction and SEM Method in a Coal-Fired Power Plant from Inner Mongolia, China. Minerals. 2015, 5: 863-869.
    45. Shu Zheng, Zixue Luo*, Yanxiang Deng, Huaichun Zhou. Development of a distributed-parameter model for the evaporation system in a supercritical W-shaped boiler. Applied Thermal Engineering. 2014, 62: 123-132.
    46. Zixue Luo*, Yanxiang Deng, Shu Zheng, Huaichun Zhou. Analysis of the Hydraulic Resistance of a Water Wall Based on a Distributed Parameter Model in a Supercritical Once-Through Boiler. Journal of Thermal Science and Engineering Applications. 2014, 6: 011006-1.
    47. Shu Zheng, Zixue Luo*, Huaichun Zhou. Distributed parameters modeling and thermal analysis of a spiral water wall in a supercritical boiler. Thermal Science. 2013, 17(5): 1337-1342.
    48. 郑树,罗自学,周怀春. 超临界W型锅炉蒸发系统的分布参数建模研究[J]. 中国电机工程学报. 2013, 33(35): 8-14+4.
    49. Qingyan Fang, Amir A. B. Musa, Yan Wei, Zixue Luo, Huaichun Zhou*. Numerical Simulation of Multifuel Combustion in a 200 MW Tangentially Fired Utility Boiler. Energy Fuels. 2012, 26:313-323.
    50. Shu Zheng, Zixue Luo*, Xiangyu Zhang, Huaichun Zhou. Distributed parameters modeling for evaporation system in a once-through coal-fired twin-furnace boiler. International Journal of Thermal Sciences. 2011, 50: 2496-2505.
    51. Zixue Luo, Fei Wang, Huaichun Zhou, Rutie Liu, Wenchang Li, Gengzhou Chang. Principles of optimization of combustion by radiant energy signal and its application in a 660 MWe down- and coal-fired boiler. Korean J. Chem. Eng. 2011, 28(12): 2336-2343.
    52. Guoyi Zhou, Jianwei Qin, Yipeng Sun, Zhonggen Li, Zixue Luo*, Huaichun Zhou. Experimental detection of radiative energy signal from a supercharged marine boiler and simulation on its application in control of drum water level. Applied Thermal Engineering, 2011, 31:3168-3175.
    53. Zixue Luo. Multi-fuel Combustion Measurement in Utility Boiler for Optimal Operation. Advanced Electrical and Electronics Engineering. 2011, 87: 63-69.
    54. Zixue Luo, Xiao Ling, Xiangyu Zhang, Shu Zheng, Huaichun Zhou. Combustion Monitoring and Control in a Reheating Furnace. Proceedings of the ASME 2011 Power Conference. July 12-14, 2011, Denver, Colorado, USA.
    55. 罗自学,闫晓沛,郑树,周怀春. 双炉膛直流炉蒸发系统的分布参数建模[J]. 华中科技大学学报(自然科学版), 2011, 39(03): 120-123.
    56. Benyuan Huang, Zixue Luo⁎, Huaichun Zhou. Optimization of combustion based on introducing radiant energy signal in pulverized coal-fired boiler. Fuel Processing Technology. 2010, 91: 660-668.
    57. Qiang Cheng, Zixue Luo*, Huaichun Zhou. Numerical Simulation on Radiative Heat Transfer through a Two-dimensional Rectangular Domain with Inhomogeneous, Absorbing and Isotropic/Anisotropic Scattering Media Exposed to Collimated Irradiation. International Journal of Nonlinear Sciences & Numerical Simulation. 2010, 11(11): 927-944.
    58. 周怀春,罗自学,娄春. 辐射能信号作为锅炉燃烧及机组运行重要监控参数的分析[J]. 动力工程学报. 2010, 30(08): 593-600.
    59. 黄本元,罗自学,方庆艳,周怀春. 200MW锅炉煤/煤气混烧检测试验研究[J].工程热物理学报. 2010, 31(06): 1065-1068.
    60. Zixue Luo*, Dundun Wang, Duan Lian, Huaichun Zhou. Measurement of Dense-Phase Bed Height in CFB Boiler Based on Flame Image Processing Technique. 2009 International Conference on Measuring Technology and Mechatronics Automation, Zhangjiajie, China, 2009, 237-240.
    61. Zhiwei Jiang, Zixue Luo, Huaichun Zhou*. A simple measurement method of temperature and emissivity of coal-fired flames from visible radiation image and its application in a CFB boiler furnace. Fuel. 2009, 88: 980-987.
    62. Huajian Wang, Zhifeng Huang, Dundun Wang, Zixue Luo, Yipeng Sun, Qingyan Fang, Chun Lou, Huaichun Zhou. Measurements on flame temperature and its 3D distribution in a 660 MWe arch-fired coal combustion furnace by visible image processing and verification by using an infrared pyrometer. Meas. Sci. Technol. 2009, 20(12): 114006.
    63. Zixue Luo, Qingyan Fang, Zhiwei Jiang, Zhifeng Huang, Huaichun Zhou. Experimental Study of Optimization Control for a Large-scale Coal-fired Utility Unit Using Radiative Energy Signal. Proceedings of the International Conference on Power Engineering-09. November 16-20, 2009, Kobe, Japan.
    64. 罗自学,刘成永,陶茂钢,周怀春. 直流锅炉风/煤比燃烧优化控制的研究[J]. 动力工程,2008, 28(05): 731-734.
    65. Zixue Luo, Huaichun Zhou. A Combustion-Monitoring System With 3-D Temperature Reconstruction Based on Flame-Image Processing Technique. IEEE Trans. Instrum. Meas. 2007, 56(5).
    66. Zixue Luo*, Huaichun Zhou, Hui Zhang, Guang Zhou. RES Induced for Combustion Optimized Control and Low NOx Emission in Thermal Power Generating Units. International Conference on Power Engineering-2007, October 23-27, 2007, Hangzhou, China.
    67. 黄本元, 罗自学, 周怀春. 炉膛燃烧稳定性的火焰图像诊断方法[J]. 热力发电, 2007(12): 19-22.
    68. 罗自学,梁培露,周怀春,陈世和. 引入辐射能信号的锅炉氧量寻优控制研究[J]. 中国电机工程学报. 2006, 26(23): 100-103.
    69. Zixue Luo, Huaichun Zhou, Lubin Wu, Zhiwei Liu. RES Introduced Through Flame Image Processing and Visualization of 3-D Temperature Distribution in a Coal-fired Boiler Furnace. Proceedings of PWR2005 ASME Power, April 5-7, 2005, Chicago, Illinois USA. 2005, 50325.
    70. 罗自学,杨超,周怀春. 炉膛辐射能信号的提取机理及其应用研究[J]. 动力工程,2005, 25(03): 374-377.
    71. 罗自学,杨超,周怀春. 燃烧三维温度场及辐射能信号特性的分析[J]. 电站系统工程. 2005(02): 18-19+22.

    专利及软著:
    1、罗自学,陈伟,程强. 一种煤粉锅炉掺烧酒糟系统,ZL202022343286.7,授权公告日:2021.10.19
    2、罗自学,程强,张世红. 一种铅冶炼炉,ZL202022116582.3,授权公告日:2021.07.06
    3、罗自学,陈伟,程强. 一种煤粉锅炉掺烧酒糟系统,ZL202011128889.3,授权公告日:2021.01.15
    4、罗自学,周昆,程强,卢璐,张世豪,张博. 一种基于石墨烯电调谐的双窄谱带近红外吸收器,ZL201911125752.X,授权公告日:2020.10.02
    5、罗自学,程文丰,柳朝晖,张军营. 一种富氧燃烧系统,ZL201510784302.7,授权公告日:2018.02.23
    6、罗自学,陈伟,程强. 一种多源有机固废垃圾焚烧炉温度检测的计算软件V1.0,开发完成日期:2020年11月20日,登记号:2021SR0079310
    7、罗自学,熊鹰,程强. 二维富氧介质浓度反演的计算软件,开发完成日期:2020年4月20日,登记号:2020SR0690719
    8、罗自学. 一维富氧三原子气体浓度反演的计算软件,开发完成日期:2019年7月31日,登记号:2019SR1156111

所获荣誉和奖励

    (1)湖北省技术发明一等奖(2007第3)
    (2)煤炭工业协会科技进步二等奖(2007第5)
    (3)教育部技术发明二等奖(2008第3)
    (4)国家能源科技进步二等奖(2010第4)