刘凤国教授

时间:2020-09-05 点击数:

刘凤国教授

刘凤国 教授/硕导

专业:建筑环境与能源应用工程

所在系、所:建筑环境与能源应用工程系

电子信箱:lfg_tj@126.com

联系电话:13702045181

主要研究方向:

方向一:燃气机驱动型压缩式热泵技术(招收:环能、能动专业学生)

方向二:新型高效换热器的研究与开发

方向三:高效低氮燃气燃烧及自适应控制技术

方向四:多能互补与智慧能源利用技术

主要科研业绩:

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11项。发表重要期刊以上论文30余篇,其中SCI检索15篇,授权发明专利7项。主编高等学校建筑环境与能源应用工程专业规划教材1部。获得省部级三等奖3项。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。

近三年代表性成果:

科研项目:

[1]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

[2]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

[3]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

[4]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

[5]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

[6]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

[7]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

科技获奖:

[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,2019.12,排名第一;

[2]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。

发表学术论文:

[1]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)

[2] Zhenxi Ma,Fengguo Liu*, Changfei Tian,Wei Wu*. et al.Experimental comparisons on a gas engine heat pump using R134a and low-GWP refrigerant R152a. International Journal of Refrigeration Accept (2020).(SCI 3区)

[3] Leilei Jia,Rui Zhang*, Xin Zhang,Zhenxi Ma, Fengguo Liu.Experimental analysis of a novel gas-engine-driven heat pump (GEHP) system for combined cooling and hot-water supply. International Journal of Refrigeration Accept (2020).(SCI 3区)

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

[5]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)

[6]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. Heat Mass Transfer[J]56, 651–662 (2020)(SCI 4区)

[7]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

[8]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)

[9]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)

[10]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)

[11] 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)

[12]Liu F.G.*,You X.Y.,WangQ, et al. On optimal design and experimental validation of household appliance burner of low pollutant emission[J].Energy Conversion and Management,2013,76:837-845.(SCI 1区)

[13]Liu F.G.*,Dong F.J,LiY.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)

[14]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: 1011–1016.(SCI 4区)

[15]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 UNIVERSITY,2016,23:1931-1936 (SCI 4区)

[16]ZhaoD.F., Liu F.G.*,YouX.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 )

[17]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)

[18]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)

授权专利:

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

[2]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,2018.05.08,ZL201610087543.0

[3]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,2017.10.13,ZL201510288101.8

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

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

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

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

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