王广伟
近期热点
资料介绍
个人简历
2018.07至今 北京科技大学 副教授 2017.07~2018.06:北京科技大学 讲师 2015.03~2017.06:北京科技大学 教师博士后; 2009.09~2015.01:北京科技大学 冶金工程专业 工学博士; 2005.09~2009.07:北京科技大学 冶金工程专业 工学学士。研究领域
低碳绿色炼铁研究 高炉富氧喷煤研究 高炉焦炭行为研究近期论文
[1] Wang Guangwei, Zhang Jianliang*, Huang Xin, et al. Co-gasification of petroleum coke-biomass blended char with steam at temperatures of 1173-1373 Kelvins. Applied Thermal Engineering. 2018, 137: 678-688. (SCI/EI检索,IF=3.929,中科院1区TOP期刊)[2] Wang Guangwei, Zhang Jianliang*, Chang Weiwei, et al. Structural features and gasification reactivity of biomass chars pyrolyzed in different atmospheres at high temperature. Energy, 2018,147:25-35. ( SCI/EI检索, IF=5.582,中科院1区Top期刊)[3] Wang Guangwei, Zhang Jianliang*, Zhang Guohua, et al. Experimental and kinetic studies on co-gasification of petroleum coke and biomass char blends. Energy, 2017,131:27-40. ( SCI/EI检索, IF=5.582,中科院1区Top期刊)[4] Wang Guangwei, Zhang Jianliang*, Zhang Guohua, et al. Experiments and kinetic modeling for reduction of Ferric oxide-biochar composite pellets. ISIJ International, 2017,57(8):1373-1382. ( SCI/EI检索, IF=1.56,中科院3区期刊)[5] Wang Guangwei, Zhang Jianliang*, Shao Jiugang, et al. Experimental and modeling studies on CO2 gasification of biomass chars. Energy. 2016,114:143-154. ( SCI/EI检索, IF=5.582,中科院1区Top期刊)[6] Wang Guangwei, Zhang Jianliang*, Shao Jiugang, et al. Thermal behavior and kinetic analysis of co-combustion of waste biomass/low rank coal blends. Energy Conversion and Management. 2016, 124:414-426. ( SCI/EI检索, IF=6.161,中科院1区Top期刊)[7] Wang Guangwei, Zhang Jianliang*, Shao Jiugang, et al. Experiments and kinetic modeling for the oxidative decomposition of herbaceous and wooden residues. Bioresources. 2016, 11(2):4821-4838. ( SCI/EI检索, IF=1.526,中科院2区期刊)[8] Wang Guangwei, Zhang Jianliang*, Hou Xinmei, et al. Study on CO2 gasification properties and kinetics of biomass chars and anthracite char. Bioresource Technology. 2015,177:66-73 ( SCI/EI检索, IF=5.978,中科院1区Top期刊)[9] Wang Guangwei, Zhang Jianliang*, Shao Jiugang, et al. Characterisation and model fitting kinetic analysis of coal/biomass co-combustion. Thermochimica Acta. 2014, 591: 68-74. (SCI检索, IF=2.501,中科院2区期刊)[10] Wang Guangwei, Zhang Jianliang*, Shao Jiugang, et al. Thermogravimetric analysis of coal char combustion kinetics. Journal of Iron and Steel Research International. 2014, 21(10):897-904. (SCI检索IF=1.163)[11] Wang Guangwei, Zhang Jianliang, Shao Jiugang, et al. Investigation of non-isothermal and isothermal gasification process of coal char using different kinetic model. International Journal of Mining Science and Technology. 2015,25: 15-21. (EI检索)[12] Liu Zhengjian, Wang Guangwei*, Zhang Jianliang, et al. Study on CO2 gasification reactivity and structure characteristics of carbonaceous materials from COREX furnace. Energy & Fuels. 2018. (SCI检索, IF=3.622,中科院2区TOP期刊)[13] Ma Jinfang, Wang Guangwei*,Zhang Jianliang, et al. Reduction behavior and kinetics research of vanadium-titanium sinters under high potential oxygen enriched pulverized coal injection. International Journal of Minerals Metallurgy and Materials. 2017, 24(5): 493-503.(SCI/EI检索,IF=1.26) [14] Xu Tao,Wang Guangwei*,Zhang Jianliang, et al. Non-isothermal study of gasification process of coal char and biomass char in CO2 condition. Journal of Iron and Steel Research International. 2017, 24(10):985-990. (SCI检索, IF=1.163)[15] Zhang Jianliang, Wang Guangwei*, Shao Jiugang, Zuo Haibin. A modified random pore model for the kinetics of char gasification. Bioresources. 2014,9(2):3497-3507. (通讯作何,SCI检索, IF=1.526,中科院2区期刊)[16] Wang Haiyang, Zhang Jianliang, Wang Guangwei*, et al. High-temperature capture of CO2 by Li4SiO4 prepared with blast furnace slag and kinetic analysis. Journal of Thermal Analysis and Calorimetry, 2018. (SCI检索, IF=1.917)[17] Wang Qi, Zhang Jianliang, Wang Guangwei*, et al. Thermal and kinetic analysis of coal with different waste plastics (PVC) in co-combustion. Energy & Fuels. 2018, 32(2):2145-2155. (SCI检索, IF=3.622,中科院2区TOP期刊)[18] Li Rongpeng, Zhang Jianliang, Wang Guangwei*, et al. Study on CO2 gasification reactivity of biomass char derived from high-temperature rapid pyrolysis. Applied Thermal Engineering. 2017, 121:1022-1031.(SCI/EI检索,IF=3.929,中科院1区TOP期刊) [19] Wang Haiyang, Zhang Jianliang, Wang Guangwei*, et al. Research on the combustion characteristics and kinetic analysis of the recycling dust for a COREX furnace. Energies. 2017, 10(2):225-267.(SCI/EI检索,IF=3.045,中科院3区期刊) 相关热点