刘凤国教授

时间:2020-09-05 点击数:

姓名

刘凤国

 

职称

教授

所在学院(系、所)

beat365体育官网平台

电子信箱

lfg_tj@126.com

主要研究方向

多能互补与智慧能源利用;燃气机驱动型压缩式热泵技术;新型高效换热器的研究与开发;高效低氮燃气燃烧及自适应控制技术

主要招收具有建筑环境与能源应用工程、能源与动力工程以及相近本科专业背景的学术学位硕士研究生专业学位硕士研究生

主要学术成就、奖励及荣誉

现任beat365体育亚洲官方网站清洁能源研究院执行院长,天津市燃气高效利用技术工程中心主任,中国土木工程学会燃气分会理事,天津市可再生能源学会理事,天津市燃气高效利用产业技术创新联盟秘书长,beat365体育亚洲官方网站工程实训中心副主任。2012年入选“天津市优秀青年教师资助计划”, 2017年入选天津市高校“中青年骨干创新人才培养计划”。2018年入选天津市“131”创新型人才培养工程第二层次人选。主持和参与省部级课题4项,主持局级课题8项,主持横向课题12项。发表重要期刊以上论文20余篇,其中SCI检索17篇,EI检索4篇,CSCD 4篇,授权发明专利15项,授权实用新型专利20项。主编规划教材1部,参编著作2部。获得省部级三等奖3奖励:[1] 民用天然气低氮氧化物燃烧技术及应用,天津市科技进步三等奖,2020.01,排名第一[2] 完全预混燃气燃烧器,河北省专利三等奖,2019.09,排名第三[3] 超低CO安全、环保、舒适型燃气热水器关键技术及产业化,山东省科技进步三等奖,2016.12,排名第三[4] 天然气燃烧利用过程优化途径的研究,华夏建设科学技术三等奖,2010.12,排名第七

 

主要科研项目及角色

[1]空气源燃气机热泵烘干机组的研发与示范,横向,2024.03-2025.03,排名第一[2]水系统及商用系统计算与选型研究项目,企业委托,横向2021.07-2021.12,排名第一[3]商用燃气比例调节阀的设计与开发,企业委托,横向,2019.05-2020.05,排名第一[4]基于预混燃烧理论的商用低氮氧化物燃气锅炉的研发,企业委托,横向,2019.07-2020.06,排名第一[5]商用燃烧技术综合测试平台的开发,企业委托,横向,2019.07-2022.07,排名第一[6]高效燃气机压缩式热泵机组的研发,天津市科委科技特派员项目,省部级,2016.10-2017.9,排名第一[7]以燃气为能源的建筑物冷热功能系统的设计与研究,住建部科技项目,省部级, 2017.7-2018.12,排名第二[8]燃气热泵制热及供生活热水机组的研发,企业委托,横向,2013.9-2016.9,排名第一[9]燃气机压缩式热泵空调机组开发与试验优化分析,企业委托,横向, 2016.8-2017.7,排名第一[10]预混式低氮氧化物燃气燃烧器研发,企业委托,横向,2016.5-2018.5,排名第一[11]基于预混燃烧方式冷凝快速热水器的研究与开发,企业委托,横向, 2013.8-2015.8,排名第一[12]燃气采暖热水炉低氮氧化物燃烧技术的研究,住建部科技项目,省部级,2014.3-2015.9,排名第一

 

代表性论文/论著及检索情况

【出版著作与教材】

[1]民用燃气具与输配设备测试技术,中国建筑工业出版社,国家级

【发表论文】已在国内外学术刊物发表学术论文主要包括:

[1] Liu F G , Cao S H , Zhou W L ,et al.Transient flow analysis on opening process of pneumatic gas proportional valve with two-solenoid valve[J].Flow Measurement and Instrumentation, 2023. SCI 4区)

[2]Liu F G, Zhao N N, Tian C F, Ma Z X, Chen Z Y. Coupling control of superheat and nitrogen oxides for gas engine heat pump. International Journal of Refrigeration,2022,137: 91-102. SCI 2区)

[3]曹士华,刘凤国,崔杨,庞智勇,刘光钱. 基于CFD动态模拟的燃气比例阀流量特性研究, 煤气与热力2022

[4] Liu F G, Zhou W L, Zheng L F, Shao M, Cheng B H. Monitoring the Combustion Characteristic of Premixed Burners with Flame Ionization Current. Journal of Energy Engineering,2021,147(4)

[5] Ma Z.X, Liu F.G.*, Tian C F, Wu W*. et al. Experimental comparisons on a gas engine heat pump using R134a and low-GWP refrigerant R152a[J]. International Journal of Refrigeration,2020.SCI 3区)

[6] Jia L L , Zhang R , Zhang X , et al. Experimental analysis of a novel gas-engine-driven heat pump (GEHP) system for combined cooling and hot-water supply[J]. International Journal of Refrigeration, 2020, 118:84-92.SCI 3区)

[7] Tian Z Y, Liu F G*, Tian C F, et al. Experimental investigation on cooling performance and optimal superheat of water source gas engine-driven heat pump system[J]. Applied Thermal Engineering, 2020: 115494.SCI 2区)

[8] Liu F.G.*, Zheng L.F., Zhang, R. Emissions and thermal efficiency for premixed burners in a condensing gas boiler. Energy[J] Accept (2020).SCI 1区)

[9] Liu F G*, Tian Z Y, Ma Z X, et al. Experimental research on the property of water source gas engine-driven heat pump (WSGHP) system with chilled and hot water in summer [J]. Applied Thermal Engineering, 2020, 165: 114532.SCI 2区)

[10] Liu F.G.* Shao M, Zhang R, et al. The influence of tip clearance and shape of pin fins on the heat transfer performance and friction factor in aluminum silicon alloy heat exchanger [J]. Numerical Heat Transfer, Part A: Applications. 2020, 77(1): 51-68.SCI 3区)

[11] Liu F.G.*, Zheng L.F., Zhang, R. et al. Performance and emissions of pre-mixed and post-mixed combustion systems with a casting aluminum-silicon alloy (CASA) condensing gas boiler[J]. Heat and mass transfer, 2020, 56(2):651-662.SCI 4区)

[12] Liu F.G.*, Ma Z.X, Zhang R. A study on the design and analysis of a gas engine heat pump water heater using shower wastewater as heat source [J]. Journal of Water Reuse and Desalination, 2019, 9(3): 310-318. SCI 4区)

[13] Liu F.G.*, Tian Z.Y., Dong F J., et al. Experimental investigation of a gas engine-driven heat pump system for cooling and heating operation[J]. International Journal of Refrigeration, 2018, 86:196-202.SCI 2区)

[14]Liu F.G.*, Tian Z.Y., Dong F.J., et al. Experimental study on the performance of a gas engine heat pump for heating and domestic hot water[J].Energy and Buildings,2017,152:273-278.SCI 2区)

[15]Liu F.G.*, Dong F.J., Yan A.B., et al. Heating performance of a parallel gas engine compression-absorption heat pump[J].Applied Thermal Engineering, 2017,123:1308-1317.SCI 2区)

[16] Zhao D.F., Liu F.G.*, You X. Y., et al. Optimization of a premixed cylindrical burner for low pollutant emission[J].Energy Conversion and Management, 2015, 99:151-160.SCI 1区)

[17]Liu F.G.*, You X.Y., Wang Q, et al. On optimal design and experimental validation of household appliance burner of low pollutant emission[J].Energy Conversion and Management2013, 76:837-845.SCI 1区)

[18]Liu F.G.*, Dong F.J, Li Y.J., et al. Study on the heating performance and optimal intermediate temperature of a series gas engine compression-absorption heat pump system[J].Applied Thermal Engineering,2018,135:34-40.SCI 2区)

[19]Liu F.G.*, Zhang R., Liu W.B., et al. Numerical investigation of optimal geometry parameters for ejectors of premixed burner[J].Journal of Central South University of Technology,2014,21: 10111016.SCI 4区)

[20]Dong F.J., Liu F.G.*, Li X.T., et al. Exploring the heating performance of gas engine heat pump with heat recovery[J].JOURNAL OF CENTRAL SOUTH UNIVERSITY2016,23:1931-1936.SCI 4区)

[21]Zhao D.F., Liu F.G.*, You X.Y., et al. Optimal Design of Two-Chamber Gas Distributor with CFD Approach [J].Journal of Harbin Institute of Technology,2015,22:79-85.EI

[22]刘凤国,田中允,董付江等,基于夏季冷热联供模式下的燃气机热泵机组性能分析[J].制冷学报,2018,5:91-97.CSCD

[23]刘凤国,马振西,张蕊等,低温环境下复叠式燃气机热泵的供热性能研究[J].制冷学报,2018,5:121-128.CSCD

[24] Fengguo L ,Shihua C ,Wenlei Z , et al.Transient flow analysis on opening process of pneumatic gas proportional valve with two-solenoid valve[J].Flow Measurement and Instrumentation,2023,89

授权专利:

[1]利用燃气机余热实现溶液再生的热源塔热泵装置,实用新型,2021.07.07,202121522035.3

[2]一种基于氢燃料电池的建筑分布式供能系统,实用新型,2021.2.26,202120418450.8

[3]串并联切换的燃气机压缩吸收复合热泵供热方法,发明,2019.03.08ZL201611112123.X

[4]燃气机驱动型蒸汽压缩与吸收复合式热泵热水机组运行方法,发明,2018.05.08ZL201610087543.0

[5]一种能源自供给燃气机热泵式机组运行方法,发明,2018.10.23201611024219.0

[6]压缩/吸收闭式并联复合燃气热泵系统运行方法,发明,2019.08.06ZL201710110890.5

[7]负压引射式全预混分段燃烧供热装置,发明,2014.07.02201320877875.0

[8]基于二氧化碳工质的燃料驱动型风冷压缩式热泵系统,发明,2017.10.13ZL201510288101.8

[9]正压引射式全预混燃烧供热装置,发明,2016.06.29ZL201310135997.7

[10]一种充分利用液化天然气冷能的冷库制冷系统,发明,2016.01.06ZL201410142746.6

[11]完全预混燃气燃烧器,发明,2015.12.23ZL201410008557.X

[12]一种能充分利用液化天然气冷能的蓄冷冷库系统,发明,2015.12.16ZL201410142527.8

 

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