Поисковый запрос: (<.>K=HYDROGEN<.>) |
Общее количество найденных документов : 30
Показаны документы с 1 по 20 |
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1.
| Freni S. Факторы, ограничивающие срок службы топливных элементов на карбонатном расплаве/S. Freni, Aquino M. Cavallaro S. // Int. J. Hydrogen Energyngs, 1994. т.19, 4, 337-341
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2.
| Weewer R. The mechanism of hydrogen oxidation at gold and nickel flag electrodes/R. Weewer, Wit J. H.W. Hemmes K. // J. Electrochem. Soc, 1995. т.142, 2, 389-397
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3.
| Ding Y. Electrolytic recovery of chlorine from hydrogen chloride gas with fused molten salt electrolyte LiCl/KCl/Y. Ding, J. Winnick // J. Appl. Electrochem, 1996. т.26, 2, 143-146
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4.
| Conductivity, thermal measurements, and phase diagram of the Na2S2O7-NaHSO4 system/G. Hatem [et al.] // The Journal of Physical Chemistry B, 1999. т.V. 103,N N 6.-С.1027-1030
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5.
| Effect of Absorbed Hydrogen on Surface Nitriding by Molten Salt Electrochemical Process/T. Nishikiori [et al.] // Electrochemical and Solid-State Letters, 2000. т.V. 3,N N 12.-С.552-554
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6.
| Using aluminum and Li2CO3 particles to reinforce the ?-LiAlO2 matrix for molten carbonate fuel cells/Jin-Eok Kim [и др.] // International Journal of Hydrogen Energy , 2009. т.Vol. 34,N № 22.-С.9227-9232
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7.
| Paolo Greppi Feasibility of the integration of a molten carbonate fuel-cell system and an integrated gasification combined cycle /Paolo Greppi, Barbara Bosio, Elisabetta Arato // International Journal of Hydrogen Energy , 2009. т.Vol. 34,N № 20.-С.8664-8669
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8.
| Rashidi R. Performance investigation of a combined MCFC system /R. Rashidi, P. Berg, I. Dincer // International Journal of Hydrogen Energy , 2009. т.Vol. 34,N № 10.-С.4395-4405
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9.
| Jaber O. Heat recovery from molten CuCl in the Cu–Cl cycle of hydrogen production /O. Jaber, G. F. Naterer, I. Dincer // International Journal of Hydrogen Energy, 2010. т.Vol. 35,N № 12.-С.6140-6151.
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10.
| Comparison of molten salt heat recovery options in the Cu–Cl cycle of hydrogen production /s. Ghandehariun [и др.] // International Journal of Hydrogen Energy , 2011. т.Vol. 36,N № 17.-С.11328-11337.
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11.
| Jun-Yong Park Hydrogen Dissolution in the CaF2-CaO-SiO2 System/Jun-Yong Park, Jin-Sou Han, II Sohn // ISIJ International, 2011. т.Vol. 51,N № 11.-С.1788-1794.
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12.
| Fabrication and performance evaluation of electrolyte-combined альфа-LiAlO2 matrices for molten carbonate fuel cells /Hyun-Jong Choi [и др.] // International Journal of Hydrogen Energy , 2011. т.Vol. 36,N № 17.-С.11048-11055.
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13.
| Houcheng Zhang Performance analysis and multi-objective optimization of a new molten carbonate fuel cell system /Houcheng Zhang, Guoxing Lin, Jincan Chen // International Journal of Hydrogen Energy, 2011. т.Vol. 36,N № 6.-С.4015-4021.
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14.
| An experimental study of aluminium electrowinning using a nickel-based hydrogen diffusion anode /Sankar Namboothiri [и др.] // Electrochimica Acta, 2011. т.Vol. 56,N № 9.-С.3192-3202.
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15.
| Xiuqin Zhang Influence of multiple irreversible losses on the performance of a molten carbonate fuel cell-gas turbine hybrid system /Xiuqin Zhang, Juncheng Guo, Jincan Chen // International Journal of Hydrogen Energy, 2012. т.Vol. 37,N № 10.-С.8664-8671.
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16.
| Interaction between Nuclear Graphite and Molten Fluoride Salts: A Synchrotron Radiation Study of the Substitution of Graphitic Hydrogen by Fluoride Ion/Xinmei Yang, Shanglei Feng, Xingtai Zhou, Hongjie Xu, T. K. Sham // Journal of Physical Chemistry A, 2012. т.Vol. 116,N № 3.-С.985-989.
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17.
| Samgin A. L. Lattice-assisted proton hopping in oxides at low temperatures /A. L. Samgin // Journal of Physics and Chemistry of Solids, 2013. т.Vol. 74,N № 12.-С.1661-1668.
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18.
| A reduced order model of Molten Carbonate Fuel Cell: A proposal /Jarosław Milewski, Marcin Wołowicz, Marcin Wołowicz, Rafał Bernat // International Journal of Hydrogen Energy, 2013. т.Vol. 38,N № 26.-С.11565-11575.
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19.
| Effect of NaF and CaO/SiO2 on the Hydrogen Dissolution in the CaO–SiO2–FeOt Based Flux System/Sung Hoon Chung, Jun-Yong Park1, Seo-Jung Park2, Woong-Seong Chang, Il Sohn // ISIJ International , 2013. т.Vol. 53,N № 1.-С.27-33.
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20.
| An effective semi-empiric model for MCFC kinetics: Theoretical development and experimental parameters identification/B. Bosio, N. Di Giulio, S. W. Nam, А. Moreno // International Journal of Hydrogen Energy, 2014. т.Vol. 39,N №.-С.. 12273-12284.
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