林其钊,男,安徽省阜阳市人,1958年5月生。
教授,博士生导师,研究室学术带头人。全国燃烧节能净化标准化技术委员会(SAC/TC 441)秘书长,《燃烧科学与技术》、《工业加热》编委。承担了多项国家“973”、“863”、国家自然科学基金、欧盟FP-6等项目。发表论文200余篇,其中被SCI、EI收录100余篇,授权发明专利40余项。
1982年1月获学士学位
1984年12月获硕士学位
1988年12月获博士学位。
1989年1月—1996年5月:安徽省远洋运输公司
1989年—1992年:工程师
1990年9月:日本京都大学,学术交流
1992年—1996年:科技公司经理,法人代表
1993年—1996年:高级工程师
1995年5月—1996年5月:中国人民大学MBA课程班学习
1996年5月—现在:中国科学技术大学
1996年5月:副教授
1998年3月:日本国家消防所,学术交流
2001年1月:教授
2001年3月:博士生导师
2002年6月—2003年1月,University of Texas at Austin,高级访问学者
2004年9月:Royal Institute of Technology(KTH, Sweden),合作研究
2004年10月:Chalmers University of Technology,合作研究
2005年6月:日本弘前大学、青森工业综合研究所,赴日本进行学术交流
获奖或荣誉:
2000年:安徽省自然科学优秀论文奖二等奖
2006年:张宗植青年教师奖
2009年:安徽省科学技术奖,新型无焰燃烧技术在煤改气及燃气工业锅炉中的研究与应用,安徽省科学技术奖二等奖
2010年:,中国专利奖优秀奖
2010年:中国质量评价协会科技创新人物奖--突出贡献者奖,中国质量评价协会,
证书编号:国家奖社证字第0213号,2010年12月
2013年:安徽省人民政府特殊津贴,证书编号(2012)934037号,2013年4月28日
2017年 :中国科学技术大学,优秀党员
2018年:中国科学技术大学,兴业证券奖
2019年:安徽省人民政府,基于大数据的多能互补分布式能源系统及工程应用,安徽省科学技术奖二等奖
研究方向:
[1]无焰燃烧。新型无焰燃烧研究,探索其在各种燃烧设备中的应用。
[2]固体燃烧。各种劣质、低热值气体、液体、固体燃料、固体废弃物的洁净燃烧、排放特性以及热能的高效利用研究。
[3]液雾燃烧。液体燃料及替代燃料燃烧特性研究,包括液滴的微爆、蒸发及喷雾特性研究。
[4]分布式能源。分布式能源系统结构配置与运行策略协同优化研究。
[5]新型能源转化方式。SOFC、微型发动机、富氧燃烧、低浓度甲烷的催化燃烧以及低氮燃烧器的开发与应用研究。
国家标准制定:
[1]B/T38919-2020《多孔介质燃烧器通用技术要求》
[2]GB/T 37650-2019《燃烧方式术语和定义》
[3]GB/T 37433-2019《低功率燃油燃烧器通用技术要求》
[4]GB/T 35075-2018 《燃气燃烧器节能试验规则》
[5]GB/T 35073-2018 《燃气燃烧器节能等级评价方法》
[6]GB/T 33840-2017《水套加热炉通用技术要求》
[7]GB/T 32037-2015《工业窑炉燃烧节能评价方法》
[8]GB/T 30886-2014《环形套筒窑》
[9]GB/T 41664-2022《低NOX燃油燃气燃烧器评价方法与试验规则》
[10]20204996-T-469《基于相位多普勒技术的液体燃料雾化特性测试方法》(已立项)
[11]20194311-T-469《基于背光成像技术的液体燃料喷射特性测试方法》(已立项)
[12]20214893-T-469《水冷预混低氮燃烧器通用技术要求》(外文版计划号:W20212118)(已立项)
代表论著:
[1] Bi Haobo,Ni Zhanshi,Tian Junjian,Wang Chengxin,Jiang Chunlong,Zhou Wenliang,Bao Lin,Sun Hao,Lin QizhaoInfluence of biomass on multi-component reaction model and combustion products of coal gangue, Combustion and Flamev 240,June 2022,Article number:111999.
[2] Bi Haobo, Ni Zhanshi, Tian Junjian, Jiang Chunlong, Sun Hao, Lin Qizhao,Influence of lignin on coal gangue pyrolysis and gas emission based on multi-lump parallel reaction model and principal component analysis, Science of the Total Environment,v 820,May 10, 2022.
[3] Liu Yu, Tian Junjian, Li Fengyu,Bao Lin,Han Kai,Lin Qizhao,Experiment and analysis on the spray characteristics of diesel/polyoxymethylene dimethyl ethers (PODE)/ethanol blends in non-reacting environment, Experimental Thermal and Fluid Science,v131, Article Number: 110528,February 1, 2022.
[4] Liu Yu, Tian JunjianTian Junjian, Li Fengyu, Han Kai,Bao Lin,Zhou Wenliang, Lin Qizhao, Spray characteristics of biodiesel-polyoxymethylene dimethyl ethers (PODE) blends in a constant volume chamber, Combustion Science and Technology,2022, DOI:10.1080/00102202.2022.2056413.
[5] Liu Yu, Tian Junjian,Song Zhihui, Li Fengyu,Zhou Wenliang, Lin Qizhao, Spray characteristics of diesel, biodiesel, polyoxymethylene dimethyl ethers blends and prediction of spray tip penetration using artificial neural network, Physics of Fluids,v 34, n 1,January 1, 2022,DOI:10.1063/5.0077405,Article number:015117.
[6] Sun Hao, Bi Haobo,Jiang Chunlong,Ni, Zhanshi,Tian Junjian,Zhou Wenliang,Qiu Zhicong,Lin Qizhao,Experimental study of the co-pyrolysis of sewage sludge and wet waste via TG-FTIR-GC and artificial neural network model: Synergistic effect, pyrolysis kinetics and gas products, Renewable Energy,v 184,p 1-14,January 2022, DOI: https://doi.org/10.1016/j.renene.2021.11.049.
[7] Ni Zhanshi, Bi Haobo, Jiang Chunlong, Sun Hao, Zhou Wenliang, Qiu Zhicong, Lin Qizhao,Research on the co-pyrolysis of coal slime and cellulose based on TG-FTIR-MS, artificial neural network, and principal component analysis, Fuel,v 320,July 15, 2022.
[8] Ni Zhanshi, Bi Haobo, Jiang Chunlong, Sun Hao, Zhou Wenliang, Tian Junjian, Lin Qizhao, Investigation of co-combustion of sewage sludge and coffee industry residue by TG-FTIR and machine learning methods,Fuel,v 309,February 1, 2022, Article number:122082, DOI:10.1016/j.fuel.2021.122082.
[9] Ni Zhanshi,Bi Haobo,Jiang Chunlong,Tian Junjian,Sun Hao,Zhou Wenliang,Lin Qizhao,Research on the co-pyrolysis of coal gangue and coffee industry residue based on machine language: Interaction, kinetics, and thermodynamics, Science of the Total Environment,v 804,January 15, 2022 Article Number: 150217.
[10] Tian Junjian, Liu Yu,?Bi Haobo,Li Fengyu,?Bao Lin,Han Kai,Zhou Wenliang,Ni Zhanshi,Lin Qizhao,Experimental study on the spray characteristics of octanol diesel and prediction of spray tip penetration by ANN model, Energy,v 239,January 15, 2022, Article number:121920.
[11] Jiang Chunlong, Zhou Wenliang,Bi Haobo,Ni Zhanshi,Sun Hao,Lin Qizhao,Co-pyrolysis of coal slime and cattle manure by TG–FTIR–MS and artificial neural network modeling: Pyrolysis behavior, kinetics, gas emission characteristics, Energy,v 247,May 15, 2022.
[12] Han Kai,Lin Qizhao,Liu Minghou, Meng Kesheng,Ni Zhanshi, Liu Yu,Tian Junjian,Experimental study on the micro-explosion characteristics of two blended types of droplets under different nitrogen flow rates, Physics of Fluids,v 34, n 3,March 1, 2022.
[13] Meng Kesheng,Huang Zhiyong,Zhang Xiaolei,Li Lan, Rui,Lin Qizhao,Effect of micro-explosion of biodiesel and ethanol droplets on evaporation: A three-stage mixed fuel droplet evaporation model, Physics of Fluids,v 34, n 3,March 1, 2022.
[14] Han Kai, Liu Yu,Wang Chengxin,Tian Junjian,Song Zhihui,Lin Qizhao,Meng Kesheng,Experimental study on the evaporation characteristics of biodiesel-ABE blended droplets, Energy,v 236, 2021, Article Number: 121453, DOI:10.1016/j.energy.2021.121453.
[15] Ni Zhanshi, Bi Haobo, Jiang Chunlong, Wang Chengxin, Tian Junjian, Zhou Wenliang, Sun Hao, Lin Qizhao, Investigation of the co-pyrolysis of coal slime and coffee industry residue based on machine learning methods and TG-FTIR: Synergistic effect, kinetics and thermodynamic, Fuel, Volume 305, Article Number: 121527, DOI:10.1016/j.fuel.2021.121527.
[16] Zhou Wenliang,Lin Qizhao, Wang Chengxin,Bi Haobo,Jiang Chunlong,Tian Junjian,Liu Yu, Ni Zhanshi,Sun Hao, Co-Pyrolysis Behavior of Coal Slime and Chinese Medicine Residue by TG-FTIR-MS with Principal Component Analysis and Artificial Neural Network Model, COMBUSTION SCIENCE AND TECHNOLOGY, Received 08 Sep 2021, Accepted 04 Nov 2021, Published online: 22 Nov 2021, DOI: 10.1080/00102202.2021.2004404.
[17] Tian Junjian, Liu Yu, Li Fengyu, Han Kai, Zhou Wenliang, Lin Qizhao, Meng Kesheng, Experimental study on spray characteristics of octanol biodiesel and modification of spray tip penetration model, Physics of Fluids,v 33, n 9,September 1, 2021.
[18] Hu Chao, Chen Zhenzhen, Wei Chao, Wan Xiaokang, Li Wenzhi,Lin Qizhao, Au Nanoparticles Supported on Iron-Based Oxides for Soot Oxidation: Physicochemical Properties Before and After the Reaction, ACS OMEGA, 2021,6(17): 11510-11518.
[19] Jiang Xuedan, Wang Chengxin,Bi Haobo,Jiang Chunlong,Liu Yanju,Song Zhihui,Lin Qizhao,Experimental Investigation on Combustion and Gas Emission of Scrap Tire Pellet under Various Concentrations of CO2/O2?Mixtures, Combustion Science and Technology,v 193, n 9,?p 1495-1515,2021.
[20] Li Fengyu, Tian Junjian, Han Kai, Bao Lin, Meng Kesheng, Lin Qizhao, Expansion and combustion of droplets that contain long-chain alcohol alternative fuels, Physics of Fluids, 2021,33(1):017117.
[21] Li Fengyu,Lin Qizhao,Radial development of pentanol-biodiesel fuel spray in a high-pressure common-rail system, Physics of Fluids, 2021,33( 9): 095115.
[22] Li Fengyu, Shi Weidong,Yu Yang,Shu Yue,Lin Qizhao,Velocity field and diameter distribution of long-chain alcohol-aviation kerosene transverse jet, Physics of Fluids, 2021, 33(12):123606.
[23] Bi Haobo, Ni Zhanshi, Tian Junjian, Wang Chengxin, Jiang Chunlong,Zhou Wenliang, Bao Lin, Sun Hao, Lin Qizhao,The effect of biomass addition on pyrolysis characteristics and gas emission of coal gangue by multi-component reaction model and TG-FTIR-MS, The Science of the total environment, Volume 798, Page 149290, DOI:10.1016/j.scitotenv.2021.149290.
[24] Bi Haobo,Wang Chengxin,Jiang Xuedan,Jiang Chunlong,Bao Lin,Lin Qizhao,Thermodynamics, kinetics, gas emissions and artificial neural network modeling of co-pyrolysis of sewage sludge and peanut shell, Fuel,v284,15 January 2021, Article number: 118988.
[25] Bi Haobo, Wang Chengxin, Lin Qizhao, Jiang Xuedan, Jiang Chunlong, Bao Lin, Pyrolysis characteristics, artificial neural network modeling and environmental impact of coal gangue and biomass by TG-FTIR, The Science of the Total Environment, v 751, 10 January 2021, Article Number:142293, DOI:10.1016/j.scitotenv.2020.142293.
[26] Bi Haobo, Wang Chengxin, Jiang Xuedan, Jiang Chunlong, Bao Lin, Lin Qizhao, Investigation of sewage sludge and peanut shells co-combustion using thermogravimetric analysis and artificial neural network, International Journal of Energy Research, 2021, 45(3):3852-3869.
[27] Shi Weidong, Li Fengyu, Lin Qizhao, Fang Guofeng, Chen Liang, Zhang Liang, Experimental study on instability of round nanofluid jets at low velocity, Experimental Thermal and Fluid Science, v120, 1 January 2021.
[28] Meng Kesheng,Bao Lin,Li Fengyu,Wang Chengxin,Lin Qizhao,Experimental understanding on combustion and micro-explosion characteristics of mixed droplets of aviation fuel, biodiesel and ethanol, Journal of the Energy Institute,v 97,p169-179,August 2021.
[29] Meng Kesheng,Han Kai,Li Fengyu,Bao Lin,Wang Chengjun,Lin Qizhao,Study on combustion and micro-explosion characteristics of biodiesel and ethanol mixture droplets under different oxygen concentrations and temperatures, Physics of Fluids,v 33, n 5,May 1, 2021.
[30] Wang Chengxin, Bi Haobo, Lin Qizhao, Jiang Chunlong, Jiang Xuedan, Meng Kesheng,Thermal Characteristics, Kinetics, and Volatility of Co-Combustion of Sewage Sludge and Rice Husk, Bioenergy Research, v 14, n 3,p 1014-1024,September 2021, https://DOI: 10.1007/s12155-020-10203-x.
[31] Wang Chengxin,Lin Qizhao, The investigation on combustion behavior of sewage sludge and duckweed blends, IOP Conference Series: Earth and Environmental Science,v 605, n 1,November 30, 2020,2020 International Conference on Energy Science and Engineering Thermophysis(会议).
[32] Li Fengyu, Fu Wei,Zhou Kun,Lin Qizhao,Expansion characteristics of butanol-diesel spray and droplet, IOP Conference Series: Earth and Environmental Science,v 605, n 1,?November 30, 2020,2020 International Conference on Energy Science and Engineering Thermophysics(会议).
[33] Wang Chengxin, Bi Haobo, Lin Qizhao, Jiang Xuedan, Jiang Chunlong,Co-pyrolysis of sewage sludge and rice husk by TG–FTIR–MS: Pyrolysis behavior, kinetics, and condensable/non-condensable gases characteristics, Renewable Energy,v 160,p 1048-1066,November 2020.
[34] Wang Chengxin, Bi Haobo, Jiang Xuedan, Jiang Chunlong, Lin Qizhao, Experimental study on ignition and combustion of coal-rice husk blends pellets in air and oxy-fuel conditions, Journal of the Energy Institute, 2020,93(4):1544-1558.
[35] Li Fengyu, Shi Weidong, Hu Chao, Bao Lin, Liu Yanju, Lin Qizhao, Global characteristics of transverse jets of aviation kerosene-long-chain alcohol blends, PHYSICS OF FLUIDS, 2020, 32(8): 087103.
[36] Bi Haobo,Wang Chengxin,Jiang Xuedan,Jiang Chunlong,Bao Lin,Lin Qizhao,?Prediction of mass loss for sewage sludge-peanut shell blends in thermogravimetric experiments using artificial neural networks, Energy Sources, Part A: Recovery, Utilization and Environmental Effects,?2020, Article in Press, https://doi.org/10.1080/15567036.2020.1841338.
[37] Bi Haobo, Wang Chengxin, Lin Qizhao, Jiang Xuedan, Jiang Chunlong, Bao Lin, Combustion behavior, kinetics, gas emission characteristics and artificial neural network modeling of coal gangue and biomass via TG-FTIR, Energy, v213, 15 December 2020, DOI: 10.1016/j.energy.2020.118790, Article number: 118790.
[38] Bi Haobo, Lin Qizhao, Wang Chengxin, Jiang Xuedan, Jiang Chunlong, Bao Lin, An experimental study of single unconventional biomass pellets: Ignition characteristics, combustion processes, and artificial neural network modeling, International Journal of Energy Research, 2020, 44(4): 2952-2965.
[39] Song Zhihui, Liu Tao, Liu Yanju, Jiang Xuedan, Lin Qizhao, Study on the optimization and sensitivity analysis of CCHP systems for industrial park facilities, International Journal of Electrical Power and Energy Systems,September 2020, 120 : 105984.
[40] Song Zhihui, Liu Tao, Lin Qizhao, Multi-objective optimization of a solar hybrid CCHP system based on different operation modes, Energy, v 206, 1 September 2020: 118125.
[41] Song, Zhi-Hui ;Lin, Qi-Zhao ;T., Liu;Y.-J., Liu;X.-D., Jiang Study on Optimization of CCHP System Based on Dynamic Load, Journal of Engineering Thermophysics, 2020, 41(10): 2372-2379(中文,ei,工程热物理学报)宋祉慧;林其钊;刘涛;刘燕菊;姜雪丹,基于动态负荷的冷热电联供系统优化研究,工程热物理学报,2020,卷41第10期: 2372-2379,ei.
[42] Jiang Chunlong, Lin Qizhao, Wang Chengxin, Jiang Xuedan, Bi Haobo, Bao Lin, Experimental study of the ignition and combustion characteristics of cattle manure under different environmental conditions, Energy, 2020, 197 : 117143.
[43] Zhao Dongmei, Xia Yifan, Ge Haiwen, Lin Qizhao, Wang Gaofeng, Large eddy simulation of flame propagation during the ignition process in an annular multiple-injector combustor, 2020, Fuel, 263 : 116402.
[44] Meng Kesheng, Fu Wei, Li Fengyu, Lei Yanyan, Lin Qizhao, Expansion, injection and micro-explosion phenomena during the full combustion cycle of mixed fuel droplets of ethyl alcohol and biodiesel, COMBUSTION THEORY AND MODELLING, MAY 2020, DOI: 10.1080/13647830.2020.1763474.
[45] Meng Kesheng, Fu Wei, Li Fengyu, Lei Yanyan, Lin Qizhao, Wang Gaofeng, Comparison of ignition, injection and micro - Explosion characteristics of RP-3/ ethanol and biodiesel / ethanol mixed drops, Journal of the Energy Institute, 2020, 93(1) : 152-164.
[46] Meng Kesheng, Bao Lin, Shi Yubao, Han Kai, Lin Qizhao,Wang Chengjun,Experimental investigation on ignition, combustion and micro-explosion of RP-3, biodiesel and ethanol blended droplets, Applied Thermal Engineering, Volume 178, September 2020, 115649.
[47] 夏一帆, 赵冬梅, 葛海文, 林其钊, 郑耀, 王高峰, 环形燃烧室点火过程的实验与数值研究(Experimental and numerical investigations of ignition process in annular combustor), 浙江大学学报.工学版, 2020, 54(2): 416-424.
[48] Fu, Wei, Li Fengyu, Meng Kesheng, Liu Yanju, Lin Qizhao, Experimental and Analysis of Macroscopic Spray Characteristics of Biodiesel Blended with Di-n-butyl Ether Under Inert Conditions, Waste and Biomass Valorization, 2020, 11(7) : 3501-3511.
[49] Shi Weidong, Li Fengyu, Lin Qizhao, Effects of nanoparticles on the instability of liquid jets in a gaseous crossflow, International Journal of Multiphase Flow, v 133, December 2020.
[50] Shi Weidong, Li Fengyu, Lin Qizhao, Fang Guofeng, Chen Liang, Zhang Liang, Effects of nanoparticle additives on spray characteristics of liquid jets in gaseous crossflow,Energies, 2020, 13(7):1574.
[51] Shi Weidong, Li Fengyu, Lin Qizhao, Fang Guofeng, Chen Liang, Zhang Liang, Effect of Nanoparticles on Cavitation in a Round Liquid Jet, IOP Conference Series: Earth and Environmental Science, v 512, n 1, June 17, 2020, 2020 4th International Workshop on Advances in Energy Science and Environment Engineering.
[52] Bao Lin, Fu Wei, Li Fengyu, Liu Yanju, Bi Haobo, Jiang Chunlong, Lin Qizhao, Experiments on macroscopic spray characteristics of diesel-ethanol with dispersed cerium nanoparticles, Journal of the Energy Institute,2020,DOI: 10.1016/j.joei.2020.06.001.
[53] Jiang Xuedan, Wang Chengxin, Wang Xinhua, Liu Yanju, Song Zhihui, Lin Qizhao, Co-combustion of coal and carbonaceous wastes: thermogravimetric analysis, Energy Sources, Part A: Recovery, Utilization and Environmental Effects, 2019, https://doi.org/10.1080/15567036.2019.1704314.
[54] Jiang Xuedan, Song Zhihui, Zhu Zuojin, Lin Qizhao, Experimental Investigation on Combustion and Gas Emission of Scrap Tire Pellet under Various, COMBUSTION SCIENCE AND TECHNOLOGY, 2019,https://doi.org/10.1080/00102202.2019.1700235.
[55] Li Fengyu, Liu Yanju, Huang Qifu, Fu Wei, Shi Weidong, Lin Qizhao, Effects of Blending Long-Chain Alcohols with Jet Fuel on the Macroscopic Spray Characteristics, CHINA PETROLEUM PROCESSING & PETROCHEMICAL TECHNOLOGY,21(4): 49-57,Published: DEC 2019.
[56] Li Fengyu, Fu Wei, Liu Yanju, Shi Weidong, Wang Xinhua, Lei Yanyan, Wang Chengxin, Yi Bolun, Zhang Haitao, Lin Qizhao, Liftoff Characteristics of Ethylene and Ethane Jet Flames in Coflow, Journal of Energy Engineering, 145(6), Article Number: 04019022, Published: DEC 2019.
[57] Liu Yanju, Li Fengyu, Fu Wei, Jiang Xuedan, Song Zhihui, Zhu Zuojin, Lin Qizhao, Experimental Investigation of Effects of Di-N-Butyl Ether Addition on Spray Macroscopic Characteristics of Diesel-Biodiesel Blends, Journal of Energy Engineering, 2019, 145(6): Article Number: 04019028,Published: DEC 2019.
[58] Fu Wei, Li Fengyu, Liu Yanju, Meng Kesheng, Lin Qizhao, Effect of in-cylinder environment on spray characteristics of diesel and biodiesel, Energy Sources, Part A: Recovery, Utilization and Environmental Effects, 2019, https://doi.org/10.1080/15567036.2019.1668503.
[59] Fu Wei, Li Fengyu, Meng Kesheng, Liu Y, Shi Weidong, Lin Qizhao, Experiment and analysis of spray characteristics of biodiesel blending with di-n-butyl ether in a direct injection combustion chamber, Energy, 15 October, 2019 : 77-89.
[60] Fu Wei, Song Lanbo, Liu Tao, Lin Qizhao, Experimental study of spray characteristics of biodiesel blending with diethyl carbonate in a common rail injection system, PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART D-JOURNAL OF AUTOMOBILE ENGINEERING,2019, 233(2): 249-262.
[61] Fu Wei, Li Fengyu, Zhang Haitao, Yi Bolun, Liu Yanju, Lin Qizhao, Liftoff behaviors and flame structure of dimethyl ether jet flame in CH4/air vitiated coflow, Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy, 2019, 233(8): 1039-1046, Published: December 1, 2019.
[62] Meng Kesheng, Fu Wei, Lei Yanyan, Zhao Dongmei, Lin Qizhao Wang Gaofeng, Study on micro-explosion intensity characteristics of biodiesel, RP-3 and ethanol mixed droplets, Fuel, 256,Article Number: UNSP 115942, Published: NOV 15 2019.
[63] Meng Kesheng, Wu Yakun, Lin Qizhao, Shan Fupeng, Fu Wei, Zhou Kun, Liu Tao, Song Lanbo, Li Fengyu, Microexplosion and ignition of biodiesel/ethanol blends droplets in oxygenated hot co-flow, Journal of the Energy Institute, 2019, 92(5): 1527-1536.
[64] Chengxin Wang, Xinhua Wang, Xuedan Jiang, Fengyu Li, Yanyan Lei, Qizhao Lin, The thermal behavior and kinetics of co-combustion between sewage sludge and wheat straw, Fuel Processing Technology, Volume 189, 15 June 2019, pp1-14.
[65] Li Fengyu, Liu Yanju, Huang Qifu, Fu Wei, Shi Weidong, Lin Qizhao, Experiment on lift-off characteristics of butane jet flame in vitiated co-flow, Fullerenes Nanotubes and Carbon Nanostructures, 2019,27(7): 553-558.
[66] Li Fengyu, Zhang Haitao, Fu Wei, Shi Weidong, Wang Chengxin, Lei Yanyan, Wang Xinhua, Song Lanbo, Yi Bolun, Liu Tao, Lin Qizhao, Lift-off flames of propane under a variety of co-flow conditions, Chemical Engineering and Processing - Process Intensification, February 2019, 136: 92-100.
[67] Li Fengyu, Yi Bolun, Fu Wei, Song Lanbo, Liu Tao, Hu Hongwei, Lin Qizhao, Experimental study on spray characteristics of long-chain alcohol-diesel fuels in a constant volume chamber, Journal of the Energy Institute, 2019, 92(1): 94-107.
[68] Yi Bolun, Fu Wei, Song Lanbo, Li Fengyu, Liu Tao, Lin Qizhao, Experimental study of the effect of n-butanol additive on spray characteristics of biodiesel in a high-pressure common-rail injection system, Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy, 2019, 233(2): 211-220.
[69] Wang Xinhua, Lin Qizhao, Wang Chengxin, Zhou Kun, Zhang Po, Li Fengyu, Lei Yanyan, The ignition characteristics and combustion processes of coal gangue under different hot coflow conditions in O2/CO2 atmosphere: in pellet form, COMBUSTION SCIENCE AND TECHNOLOGY,2019, 191(3): 419-434.
[70] Zhao Dongmei, Xia Yifan, Ge Haiwen, Lin Qizhao, Zou Jianfeng, Wang, Gaofeng, Simulations of flame propagation during the ignition process in an annular multiple-injector combustor, International Journal of Numerical Methods for Heat and Fluid Flow, 2019, 29(6): 1947-1964.
[71] Liu Tao, Fu Wei, Yi Bolun, Song Lanbo, Lin Qizhao, Zhao Dongmei, Experimental investigations of kerosene sprays in pressurized evaporating environments, Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy, 2019, 233(3): 413-427.
[72] An Shengxin, Li Wenzhi, Liu Qiyu, Xia Ying, Zhang Tingwei, Huang Feng, Lin Qizhao, Chen Liang, Combined dilute hydrochloric acid and alkaline wet oxidation pretreatment to improve sugar recovery of corn stover, Bioresource technology, 2019, 271: 283-288.
[73] Zhou Kun, Lin Qizhao, Hu Huiqing, et al., Ignition and Combustion Behaviors of Single Coal Slime Particle in CO2/O2 atmosphere, Combustion and Flame,2018, 194: 250-263.
[74] Lei Yanyan, Li Wenzhi, Liu Qingchuan, Lin Qizhao, Zheng Xusheng, Huang Qifu, Guan Shengnan, Wang Xinhua, Wang Chengxin, Li Fengyu, Typical crystal face effects of different morphology ceria on the activity of Pd/CeO2catalysts for lean methane combustion, Fuel, 2018, 233: 10-20.
[75] Huang Qifu, Li Wenzhi, Lei Yanyan, Guan Shengnan, Zheng Xusheng, Pan Yang, Wen Wu, Zhu Junfa, Zhang Haitao, Lin Qizhao, Catalytic Performance of Novel Hierarchical Porous Flower-Like NiCo2O4Supported Pd in Lean Methane Oxidation, CATALYSIS LETTERS, 2018, 148(9):2799-2811.
[76] Huang Qifu, Li Wenzhi, Lin Qizhao, Zheng Xusheng, Pan Haibin, Pi Dong, Shao Chunyu, Hu Chao, Zhang Haitao, Catalytic performance of Pd–NiCo2O4/SiO2 in lean methane combustion at low temperature, Journal of the Energy Institute, 2018, 91(5): 733-742.
[77] Wang Xinhua, Wang Chengxin, Zhou Kun, Zhang Po, Li Fengyu, Lei Yanyan, Lin Qizhao, Experimental Study on Combustion Behaviors and Carbon Monoxide Emission Characteristics of Single Coal Pellets, Journal of Energy Engineering, 2018, 144(5): 04018050, 1-11.
[78] Zhang Haitao, Huang Qifu, Hu Chao, Lin, Qizhao, Numerical study on heat transfer and energy storage in a glass furnace regenerator, GLASS TECHNOLOGY-EUROPEAN JOURNAL OF GLASS SCIENCE AND TECHNOLOGY PART A, 2018, 59(1): 1-10.
[79] Zhang Haitao, Li Fengyu, Wang Gaofeng, Huang Qifu, Lin Qizhao, Liftoff behavior and combustion characteristic of jet flame in a coflow burner, Energy Sources, Part A: Recovery, Utilization and Environmental Effects, 2018, 40(11): 1366-1373.
[80] Li Fengyu, Yi Bolun, Song Lanbo, Fu Wei , Liu Tao, Hu Hongwei, Lin Qizhao, Macroscopic spray characteristics of long-chain alcohol-biodiesel fuels in a constant volume chamber, Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy, 2018, 232(2): 195-207.
[81] Li Fengyu, Fu Wei, Yi Bolun, Song Lanbo, Liu Tao, Wang Xinhua, Wang Chengxin, Lei Yanyan, Lin Qizhao, Comparison of macroscopic spray characteristics between biodiesel-pentanol blends and diesel, Experimental Thermal and Fluid Science, 2018, 98:523-533.
[82] Liu Tao, Song Lanbo, Fu Wei, Wang Gaofeng, Lin Qizhao, Zhao Dongmei, Yi Bolun, Experimental Study on Single-Hole Injection of Kerosene into Pressurized Quiescent Environments, Journal of Energy Engineering, 2018, 144(3): 04018014.
[83] Song Lanbo, Liu Tao, Meng Kesheng, Fu Wei, Yi Bolun, Li Fengyu, Lin Qizhao, Effect of In-Cylinder Conditions on Spray Characteristics of Diesel, Biodiesel, and Biodiesel-Ethanol Blended Fuels, Journal of Energy Engineering, 2018, 144(3): 04018029.
[84] Song Lanbo, Liu Tao, Fu Wei, Lin Qizhao, Experimental study on spray characteristics of ethanol-aviation kerosene blended fuel with a high-pressure common rail injection system, Journal of the Energy Institute, 2018, 91(2): 203-213.
[85] Cai Qilin, Ye Hong, Zhang Lisong, Lin Qizhao, Measurement and theoretical prediction on the surface emittance of carbonized layer of silica/phenolic ablative material, International Journal of Heat and Mass Transfer, 2018, 120: 1076-1084.
[86] Zhou Kun, Lin Qizhao, Hu Hongwei, et al., The ignition characteristics and combustion processes of the single coal slime particle under different hot-coflow conditions in N-2/O-2 atmosphere, ENERGY,?Volume:136, 2017: 173-184.
[87] Li Yongping, Lin Qizhao, Zhu Zuojin, LES of Normally Impinging Elliptic Air-Jet Heat Transfer at Re=4400, ADVANCES IN APPLIED MATHEMATICS AND MECHANICS,2017, 9(2): 485-500.
[88] Li Yongping, Zhang Liang, Lin Qizhao, Zhu Zuojin, Large Eddy Simulation of Normally Impinging Round Air-Jet Heat Transfer at Moderate Reynolds Numbers, HEAT TRANSFER ENGINEERING, 2017, 38(17): 1439-1448.
[89] Hu Chao, Li Wenzhi, Lin Qizhao, Zheng Xusheng, Pan Haibin, Huang Qifu, Impact of ferrocene on the nanostructure and functional groups of soot in a propane/oxygen diffusion flame, RSC ADVANCES, Volume:7Issue:9, 2017:5427-5436.
[90] Hu Chao, Li Wenzhi, Lin Qizhao, Cheng Xiaofang, Huang Qifu, Zhang Haitao, Wang Ziyu, Effects of ferrocene on flame temperature, formation of soot particles and growth of polycyclic aromatic hydrocarbons, JOURNAL OF THE ENERGY INSTITUTE, 2017, 90(6): 893-901.
[91] Xu Zhengqian, Zhao Qingjun, Lin Qizhao, et al., A hybrid Hermite-WENO/slope limiter for reconstructed discontinuous Galerkin methods on unstructured grids, COMPUTERS & FLUIDS, 2017, 145: 85-98.
[92] Fu Wei, Song Lanbo, Yi Bolun, Liu Tao, Li Fengyu, Lin Qizhao, Experimental and Theoretical Analysis of the Spray Characteristics of a High-Pressure Common-Rail Injection System Fueled with Neat Biodiesel, Ethanol-Biodiesel Blends, and Neat Diesel Fuel, Journal of Energy Engineering, 2017, 143(6): 04017060.
[93] Hu Hongwei, Zhou Kun, Meng Kesheng, et al., Effects of SiO2/Al2O3 Ratios on Sintering Characteristics of Synthetic Coal Ash, ENERGIES,10(2): 242,Article number: 242, February 16, 2017, https://doi:10.3390/en10020242.
[94] Shan Fupeng, Lin Qizhao, Zhou Kun, et al. An experimental study of ignition and combustion of single biomass pellets in air and oxy-fue, FUEL, 2017,188: 277-284.
[95] Zhang Po, Lin Qizhao, Zhou Kun et al., Gas emissions from blends of bituminous coal and biomass chars under different pyrolysis conditions, ENERGY SOURCES PART A-RECOVERY UTILIZATION AND ENVIRONMENTAL EFFECTS, 2017, 39(18): 1913-1918.
[96] Yi Bolun, Lin Qizhao, Song Lanbo, Spray Characteristics of n-Butanol in a High-Pressure Common-Rail Injection System, JOURNAL OF ENERGY ENGINEERING, 2017, 143(5):04017044.
[97] Shao Chunyu, Li Wenzhi, Lin Qizhao, Huang Qifu, Pi Dong, Low Temperature Complete Combustion of Lean Methane over Cobalt-Nickel Mixed-Oxide Catalysts, Energy Technology,2017, 5(4): 604-610.
[98] Pi Dong, Li WenZhi, Lin QiZhao, Huang QiFu, Hu HuiQing, Shao ChunYu, Highly Active and Thermally Stable Supported Pd@SiO2Core–Shell Catalyst for Catalytic Methane Combustion, Energy Technology, 2016, 4(8): 943-949.
[99] Huang Qifu, Li Wenzhi, Lin Qizhao et al., A review of significant factors in the synthesis of hetero-structured dumbbell-like nanoparticles, CHINESE JOURNAL OF CATALYSIS, 2016, 37(5): 681-691.
[100] Cai Qilin, Ye Hong, Lin Qizhao, Analysis of the optical and thermal properties of transparent insulating materials containing gas bubbles, Applied Thermal Engineering, 2016, 100: 468-477.
[101] Ni Qing, Ye Hong, Shu Yue, Lin Qizhao, A theoretical discussion on the internal quantum efficiencies of the epitaxial single crystal GaSb thin film cells with different p-n junctions, Solar Energy Materials and Solar Cells, 2016, 149: 88-96.
[102] Li Shimin, Ye Hong, Lin Qizhao, Theoretical analysis of the surface temperature regulation of an infrared false target subjected to periodical ambient conditions, DEFENCE TECHNOLOGY, 2016, 12(5): 360-366.
[103] Song Lanbo, Lin Qizhao, Xie Yizhi, Hu Hongwei, Hu Huiqing, Pi Dong, Xu Shumin, Experimental Study of the Spray Characteristics of Diesohol Fuel using a High-Pressure Common-Rail Injection System in a Diesel Engine, Energy Technology, 2015, 3(9):896-905.
[104] Xu Zhengqian, Zhao Qingjun, Lin Qizhao, Xu Jianzhong, Large eddy simulation on the effect of free-stream turbulence on bypass transition, INTERNATIONAL JOURNAL OF HEAT AND FLUID FLOW,2015, 54: 131-142.
[105] Xu Zhengqian, Zhao Qingjun, Lin Qizhao, Xu Jianzhong, A new high-order unstructured numerical scheme for large eddy simulation, 22nd AIAA Computational Fluid Dynamics Conference, 2015, 22nd AIAA Computational Fluid Dynamics Conference, June22- 26, 2015, American Institute of Aeronautics and Astronautics Inc, AIAA.
[106] Xie Hongzhan, Song Lanbo, Xie Yizhi et al., An Experimental Study on the Macroscopic Spray Characteristics of Biodiesel and Diesel in a Constant Volume Chamber, ENERGIES, 2015, 8(6): 5952-5972.
[107] Sui Yaguang, Zhang Dezhi, Tang Shiying, Li Jie, Lin Qizhao, Theoretical Analysis of a Reactive Reinforcement Method for Cylindrical Explosion-Containment Vessels, JOURNAL OF PRESSURE VESSEL TECHNOLOGY-TRANSACTIONS OF THE ASME, 2015, 137(1): 011206.
[108] Hu Huiqing, Lin Qizhao, Liu Xiangrong, Zhu Bin, Scaled up low-temperature SOFCs with symmetrical electrode for applications, JOURNAL OF SOLID STATE ELECTROCHEMISTRY, 2015,19(8): 2361-2368.
[109] Hu Huiqing, Lin Qizhao, Muhammad Afzal, Zhu Bin, Electrochemical study of lithiated transition metal oxide composite for single layer fuel cell, JOURNAL OF POWER SOURCES, 2015, 286: 388-393.
[110] Hu Huiqing, Lin Qizhao, Zhu Zhigang, Liu Xiangrong, Afzal Muhammad, He Yunjuan, Zhu Bin, Effects of composition on the electrochemical property and cell performance of single layer fuel cell, JOURNAL OF POWER SOURCES, 2015, 275: 476-482.
[111] Wu Yuxin, Cao Changmin, Ye Taohong et al., A new multi-dimensional flamelet generated manifolds approach for approximating partially premixed flame structure, JOURNAL OF THERMAL SCIENCE AND TECHNOLOGY, 2015, 10(1): 15-095.
[112] Hu Huiqing, Lin Qizhao, Zhu Zhigang, Liu Xiangrong, Zhu Bin, Time-dependent performance change of single layer fuel cell with Li0.4Mg0.3Zn0.3O/Ce0.8Sm0.2O2-delta composite, INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 2014, 39(20): 10718-10723.
[113] Hu Huiqing, Lin Qizhao, Zhu Zhigang, Zhu Bin, Liu Xianrong, Fabrication of Electrolyte-Free Fuel Cell with Mg0.4Zn0.6O/ Ce0.8Sm0.2O2-<delta>-Li0.3Ni0.6Cu0.07Sr0.03O2-<delta> layer, Journal of Power Sources, 2014, 248: 577-581.
[114] Yuan Zhe, Lin Qizhao, Bin Zhu, Thermodynamic analysis of ITSOFC co-generation system fueled by ethanol, Int. J. Energy Res. 2011,35:1025-1031.
[115] Yuan Zhe, Lin Qizhao, Bin Zhu, Thermodynamic Analysis of ITSOFC Hybrid System for Polygenerations, International Journal of Hydrogen Energy, 2010, 35(7): 2824-2828.
[116] Yu Yu, Wang Gaofeng, Lin Qizhao, Ma Chengbiao, Flameless combustion for hydrogen containing fuels, International Journal of Hydrogen Energy, 2010, 35(7): 2694-2697.
[117] Tang Zhiguo, Lin Qizhao, Mellander Bengt-Erik, et al., SDC-LiNa carbonate composite and nanocomposite electrolytes, INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,?2010, 35(7): 2970-2975.
[118] Wang GaoFeng, Ma ChengBiao, Wang BaoYuan, et al., Direct observations of reaction zone structure in shock-induced ignition of methane air mixture, CHINESE SCIENCE BULLETIN, 2009, 54(13): 2247-2255.
[119] 林其钊.Electrochemical study of lithiated transition metal oxide composite for single layer fuel cell.JOURNAL OF POWER SOURCES,2015,286388-393.
[120] 林其钊.Scaled up low-temperature SOFCs with symmetrical electrode for applications.JOURNAL OF SOLID STATE ELECTROCHEMISTRY,2015,19(8):2361-2368.
[121] 林其钊.An Experimental Study on the Macroscopic Spray Characteristics of Biodiesel and Diesel in a Constant Volume Chamber.ENERGIES,2015,8(6):5952-5972.
[122] 林其钊.Experimental Study of the Spray Characteristics of Diesohol Fuel using a High-Pressure Common-Rail Injection System in a Diesel Engine.ENERGY TECHNOLOGY,2015,3(9):896-905.
[123] 林其钊.The ignition characteristics and combustion processes of the single coal slime particle under different hot-coflow conditions in N-2/O-2 atmosphere.ENERGY,2017,136173-184.
[124] 林其钊.An experimental study of ignition and combustion of single biomass pellets in air and oxy-fuel.FUEL,2017,188277-284.
[125] 林其钊.Time-dependent performance change of single layer fuel cell with Li0.4Mg0.3Zn0.3O/Ce0.8Sm0.2O2-delta composite.INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,2014,39(20):10718-10723.
[126] 林其钊.Fabrication of electrolyte-free fuel cell with Mg0.4Zn0.6O/Ce0.8Sm0.2O2-delta-Li0.3Ni0.6Cu0.07Sr0.03O2-delta layer.JOURNAL OF POWER SOURCES,2014,248577-581.
[127] 林其钊.Effects of composition on the electrochemical property and cell performance of single layer fuel cell.JOURNAL OF POWER SOURCES,2015,275476-482.
专利成果
[1]低热值气体燃烧器发明
[2]一种微油点火燃烧装置实用新型申请
[3]一种单液滴微爆现象实验装置实用新型申请
[5]一种微油点火燃烧装置发明公开
[6]一种催化氧化低浓度甲烷的催化剂及其制备方法以及应用发明
[7]一种燃油加热器及横向射流雾化实验系统实用新型
[8]一种燃油加热器及横向射流雾化实验系统发明
[9]一种可视化的发动机燃烧室模拟实验装置实用新型
[10]一种可控热氛围燃烧器发明
[11]一种可视化的发动机燃烧室模拟实验装置发明
[12]一种带有催化燃烧的燃气割嘴实用新型
[13]一种带有催化燃烧的燃气割嘴发明
[14]一种富氧燃烧器实用新型
[15]一种预燃式脉动燃烧器实用新型
[16]一种富氧燃烧器发明
[17]一种预燃式脉动燃烧器发明
[18]一种引射预燃式无焰燃烧器发明
[19]一种无焰燃烧装置发明
[20]一种带有高温烟气回流的蓄热式加热炉实用新型
[21]一种带有烟气回流的蓄热式加热炉发明
[22]一种小型高效燃气/燃油锅炉发明
[23]一种高效燃油锅炉发明
[24]矿井通风瓦斯燃烧器自动控制系统实用新型
[25]一种天然气现场制氢装置实用新型
[26]一种干煤粉气流床气化炉实用新型
[27]高灰熔点煤种加压气流床气化装置实用新型
[28]SWISS-ROLL矿井通风瓦斯燃烧器自动控制系统发明
[29]一种天然气现场制氢装置与方法发明
[30]一种干煤粉气流床气化炉发明
[31]高灰熔点煤种气化方法及其装置发明
[32]生物质高温燃烧锅炉实用新型
[33]一种矿井通风瓦斯燃烧及热能利用装置实用新型
[34]一种低浓度气态烃的燃烧装置实用新型
[35]加压微量螺旋给粉器实用新型
[36]一种矿井通风瓦斯燃烧及热能利用装置发明
[37]生物质高温燃烧锅炉发明
[38]一种低浓度气态烃的燃烧装置发明
[39]加压微量螺旋给粉器发明
[40]采用稀薄-无焰燃烧方式的燃气或燃油锅炉实用新型
[41]一种燃气或燃油锅炉实用新型
[42]一种燃气或燃油锅炉发明
[43]采用稀薄-无焰燃烧方式的燃气或燃油锅炉发明
研究方向:
[1]无焰燃烧。新型无焰燃烧研究,探索其在各种燃烧设备中的应用。
[2]固体燃烧。各种劣质、低热值气体、液体、固体燃料、固体废弃物的洁净燃烧、排放特性以及热能的高效利用研究。
[3]液雾燃烧。液体燃料及替代燃料燃烧特性研究,包括液滴的微爆、蒸发及喷雾特性研究。
[4]分布式能源。分布式能源系统结构配置与运行策略协同优化研究。
[5]新型能源转化方式。SOFC、微型发动机、富氧燃烧、低浓度甲烷的催化燃烧以及低氮燃烧器的开发与应用研究。
[1]火电行业率先碳达峰关键技术标准研究,国家重点研发计划,2021YFF0601004,2022—2025
[2]TSR瞬态热辐射场分布计算研究,重点实验室开放课题,2020—2021
[3]燃气无焰燃烧技术应用研究,铂悦厨具,2022—2023
[4]多能源系统集成优化,顺昌分布式能源综合应用技术有限公司,2017年—2018年
[5]移动式隧道窑热平衡分析与节能技术研究,六安永发新型建材有限公司,2017年—2020年
[6]热伴流稀释液雾射流燃烧的实验和理论研究,国家自然科学基金(批准号:51376171),2014年—2017年
[7]低NOx燃烧技术,博瑞特热工设备有限公司,2019--2000
[8]多能源互补的分布式冷热电联供系统基础研究的应用,国家重点基础研究“973”计划项目(2010CB227300)资助,2011年—2015年
[9]低浓度煤层气的燃烧技术与热能利用,国家“863”计划课题(2006AA05Z210),2006年—2008年
[10]生物质高温燃烧锅炉的研发,江苏省科技支撑项目(BE2008026),2008年—2009年
[11]基于空间反应的粉煤高效气化技术,安徽省“十一五”科技攻关重点项目 (07010202080),2007年—2008年
[12]安徽省节能减排重大科技问题研究,安徽省软科学重大项目(08030503010),2008年—2009年
[13]Advanced Fuel Cell Technology,国际合作项目(Royal Institute of Technology,KTH, Sweden),资助单位:Commission of the European Communities Research Directorate-General,2006年—2012年
[14]新型无焰燃烧技术在工业锅炉中的应用,安徽省重点科研计划(6022017),2006年—2007年
[15]富氧燃烧的研究与应用,安徽云天冶金科技股份有限公司,2013年—2014年
主讲课程:
《燃烧学》
《燃烧与污染控制技术》
《能源经济学》
联系方式:
电话:0551-63600487
邮箱:qlin@ustc.edu.cn
个人主页: https://faculty.ustc.edu.cn/linqizhao/zh_CN/index.htm