Continuous operation characteristics of chemical looping hydrogen production system
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DOI: 10.1016/j.apenergy.2013.08.078
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- Luo, Ming & Yi, Yang & Wang, Shuzhong & Wang, Zhuliang & Du, Min & Pan, Jianfeng & Wang, Qian, 2018. "Review of hydrogen production using chemical-looping technology," Renewable and Sustainable Energy Reviews, Elsevier, vol. 81(P2), pages 3186-3214.
- Zhu, Min & Chen, Shiyi & Soomro, Ahsanullah & Hu, Jun & Sun, Zhao & Ma, Shiwei & Xiang, Wenguo, 2018. "Effects of supports on reduction activity and carbon deposition of iron oxide for methane chemical looping hydrogen generation," Applied Energy, Elsevier, vol. 225(C), pages 912-921.
- Zhang, Shuai & Xiao, Rui & Zheng, Wenguang, 2014. "Comparative study between fluidized-bed and fixed-bed operation modes in pressurized chemical looping combustion of coal," Applied Energy, Elsevier, vol. 130(C), pages 181-189.
- Voitic, Gernot & Nestl, Stephan & Lammer, Michael & Wagner, Julian & Hacker, Viktor, 2015. "Pressurized hydrogen production by fixed-bed chemical looping," Applied Energy, Elsevier, vol. 157(C), pages 399-407.
- Esteban-Díez, G. & Gil, María V. & Pevida, C. & Chen, D. & Rubiera, F., 2016. "Effect of operating conditions on the sorption enhanced steam reforming of blends of acetic acid and acetone as bio-oil model compounds," Applied Energy, Elsevier, vol. 177(C), pages 579-590.
- Khan, Mohammed N. & Shamim, Tariq, 2016. "Investigation of hydrogen generation in a three reactor chemical looping reforming process," Applied Energy, Elsevier, vol. 162(C), pages 1186-1194.
- Hua, Xiuning & Fan, Yiran & Wang, Yidi & Fu, Tiantian & Fowler, G.D. & Zhao, Dongmei & Wang, Wei, 2017. "The behaviour of multiple reaction fronts during iron (III) oxide reduction in a non-steady state packed bed for chemical looping water splitting," Applied Energy, Elsevier, vol. 193(C), pages 96-111.
- Cho, Won Chul & Lee, Jun Kyu & Nam, Gyeong Duk & Kim, Chang Hee & Cho, Hyun-Seok & Joo, Jong Hoon, 2019. "Degradation analysis of mixed ionic-electronic conductor-supported iron-oxide oxygen carriers for chemical-looping conversion of methane," Applied Energy, Elsevier, vol. 239(C), pages 644-657.
- Sun, Zhao & Chen, Shiyi & Hu, Jun & Chen, Aimin & Rony, Asif Hasan & Russell, Christopher K. & Xiang, Wenguo & Fan, Maohong & Darby Dyar, M. & Dklute, Elizabeth C., 2018. "Ca2Fe2O5: A promising oxygen carrier for CO/CH4 conversion and almost-pure H2 production with inherent CO2 capture over a two-step chemical looping hydrogen generation process," Applied Energy, Elsevier, vol. 211(C), pages 431-442.
- García-Díez, E. & García-Labiano, F. & de Diego, L.F. & Abad, A. & Gayán, P. & Adánez, J. & Ruíz, J.A.C., 2016. "Optimization of hydrogen production with CO2 capture by autothermal chemical-looping reforming using different bioethanol purities," Applied Energy, Elsevier, vol. 169(C), pages 491-498.
- Medrano, J.A. & Hamers, H.P. & Williams, G. & van Sint Annaland, M. & Gallucci, F., 2015. "NiO/CaAl2O4 as active oxygen carrier for low temperature chemical looping applications," Applied Energy, Elsevier, vol. 158(C), pages 86-96.
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Keywords
Three-reactor chemical looping (TRCL); Hydrogen; CO2 separation; Iron oxide (Fe2O3); Redox reaction;All these keywords.
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