中国矿业大学主页平台系统刘方--中文主页--论文成果

论文成果

中文主页 - 科学研究 - 论文成果

[21] Chen L.; Zhang Y.; Liu F.; Liu K.; Development of a Cost-effective Oxygen Carrier from Red Mud for Coal-fueled Chemical-looping Combustion, Energy & Fuels, 2015, 29 (1), 305–313.
[22] 刘方，宋晨，亢炜燎，吴鑫，杨丽，纤维增韧提高载氧体抗磨损性实验研究[J].中国电机工程学报,2021,41(04):1234-1241+1530.
[23] Fang Liu , Weiliao Kang , Chen Song , Zhixuan Jia , Wenbin Chen , Li Yang*, Crack propagation and attrition mechanism of oxygen carriers in chemical looping process, Fuel 310 (2022) 122326.
[24] Yang Li, Liu Fang*, He Jianlong. Natural sand as a non-conventional catalyst for hydrogen production by methane thermo-catalytic decomposition, International Journal of Hydrogen Energy, 2019, 44, 11625-11633.
[25] Liu Fang, Yang Li*, Xin Wu, Xi Zhang, Yang Liu, Bauxite waste with low Fe2O3 and high Na concentration as a promising oxygen carrier in chemical looping combustion, International Journal of Energy Research, 2020; 1-11.
[26] Fang Liu, Jiangyuan Zhao, Guohui Xuan, Fan Zhang, Li Yang*, Spatial evolution characteristics of active components of copper-iron based oxygen carrier in chemical looping combustion, Fuel, 2021, 306, 121650.
[27] Liu F*.; Yang, L.; Iron Based Oxygen Carrier Development and Scale Modeling Study for Chemical Looping Combustion, 徐州，中国矿业大学出版社，2018.
[28] Liu Fang, Yang Li*, Cheng Jie, Wu Xin, Quan Wenbin, Kozo Saito, Low Temperature deNOx Catalytic Activity with C2H4 as a Reductant Using Mixed Metal Fe-Mn Oxides Supported on Activated Carbon, Energies, 2019,12 4341.
[29] Liu F.; Tianxiang Li; James Neathery; Kunlei Liu; Kozo Saito, Characterization and kinetics study of ilmenite for chemicallooping combustion, Spring Technical Meeting of the Central States Section of the Combustion Institute, 2012.4.22-2012.4.24
[30] Yang, L.; Liu F*.; Numerical Study on Post-Combustion Technologies for CO2 Capture，徐州，中国矿业大学出版社，2018.

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论文成果

[21] Chen L.; Zhang Y.; Liu F.; Liu K.; Development of a Cost-effective Oxygen Carrier from Red Mud for Coal-fueled Chemical-looping Combustion, Energy & Fuels, 2015, 29 (1), 305–313.

[22] 刘方，宋晨，亢炜燎，吴鑫，杨丽，纤维增韧提高载氧体抗磨损性实验研究[J].中国电机工程学报,2021,41(04):1234-1241+1530.

[23] Fang Liu , Weiliao Kang , Chen Song , Zhixuan Jia , Wenbin Chen , Li Yang*, Crack propagation and attrition mechanism of oxygen carriers in chemical looping process, Fuel 310 (2022) 122326.

[24] Yang Li, Liu Fang*, He Jianlong. Natural sand as a non-conventional catalyst for hydrogen production by methane thermo-catalytic decomposition, International Journal of Hydrogen Energy, 2019, 44, 11625-11633.

[25] Liu Fang, Yang Li*, Xin Wu, Xi Zhang, Yang Liu, Bauxite waste with low Fe2O3 and high Na concentration as a promising oxygen carrier in chemical looping combustion, International Journal of Energy Research, 2020; 1-11.

[26] Fang Liu, Jiangyuan Zhao, Guohui Xuan, Fan Zhang, Li Yang*, Spatial evolution characteristics of active components of copper-iron based oxygen carrier in chemical looping combustion, Fuel, 2021, 306, 121650.

[27] Liu F*.; Yang, L.; Iron Based Oxygen Carrier Development and Scale Modeling Study for Chemical Looping Combustion, 徐州，中国矿业大学出版社，2018.

[28] Liu Fang, Yang Li*, Cheng Jie, Wu Xin, Quan Wenbin, Kozo Saito, Low Temperature deNOx Catalytic Activity with C2H4 as a Reductant Using Mixed Metal Fe-Mn Oxides Supported on Activated Carbon, Energies, 2019,12 4341.

[29] Liu F.; Tianxiang Li; James Neathery; Kunlei Liu; Kozo Saito, Characterization and kinetics study of ilmenite for chemicallooping combustion, Spring Technical Meeting of the Central States Section of the Combustion Institute, 2012.4.22-2012.4.24

[30] Yang, L.; Liu F*.; Numerical Study on Post-Combustion Technologies for CO2 Capture，徐州，中国矿业大学出版社，2018.

论文成果

[21] Chen L.; Zhang Y.; Liu F.; Liu K.; Development of a Cost-effective Oxygen Carrier from Red Mud for Coal-fueled Chemical-looping Combustion, Energy &amp; Fuels, 2015, 29 (1), 305–313.

[22] 刘方，宋晨，亢炜燎，吴鑫，杨丽，纤维增韧提高载氧体抗磨损性实验研究[J].中国电机工程学报,2021,41(04):1234-1241+1530.

[23] Fang Liu , Weiliao Kang , Chen Song , Zhixuan Jia , Wenbin Chen , Li Yang*, Crack propagation and attrition mechanism of oxygen carriers in chemical looping process, Fuel 310 (2022) 122326.

[24] Yang Li, Liu Fang*, He Jianlong. Natural sand as a non-conventional catalyst for hydrogen production by methane thermo-catalytic decomposition, International Journal of Hydrogen Energy, 2019, 44, 11625-11633.

[25] Liu Fang, Yang Li*, Xin Wu, Xi Zhang, Yang Liu, Bauxite waste with low Fe2O3 and high Na concentration as a promising oxygen carrier in chemical looping combustion, International Journal of Energy Research, 2020; 1-11.

[26] Fang Liu, Jiangyuan Zhao, Guohui Xuan, Fan Zhang, Li Yang*, Spatial evolution characteristics of active components of copper-iron based oxygen carrier in chemical looping combustion, Fuel, 2021, 306, 121650.

[27] Liu F*.; Yang, L.; Iron Based Oxygen Carrier Development and Scale Modeling Study for Chemical Looping Combustion, 徐州，中国矿业大学出版社，2018.

[28] Liu Fang, Yang Li*, Cheng Jie, Wu Xin, Quan Wenbin, Kozo Saito, Low Temperature deNOx Catalytic Activity with C2H4 as a Reductant Using Mixed Metal Fe-Mn Oxides Supported on Activated Carbon, Energies, 2019,12 4341.

[29] Liu F.; Tianxiang Li; James Neathery; Kunlei Liu; Kozo Saito, Characterization and kinetics study of ilmenite for chemicallooping combustion, Spring Technical Meeting of the Central States Section of the Combustion Institute, 2012.4.22-2012.4.24

[30] Yang, L.; Liu F*.; Numerical Study on Post-Combustion Technologies for CO2 Capture，徐州，中国矿业大学出版社，2018.

[21] Chen L.; Zhang Y.; Liu F.; Liu K.; Development of a Cost-effective Oxygen Carrier from Red Mud for Coal-fueled Chemical-looping Combustion, Energy & Fuels, 2015, 29 (1), 305–313.