Uneingeschränkter Zugang

Ni–Al Protective Coating of Steel Electrodes in Dc Electrolysis for Hydrogen Production / Ni–Al Pārklājuma Ietekme Uz Tērauda Elektrodiem Līdzstrāvas Elektrolīzē Ūdeņraža Ražošanai

P. Aizpurietis
P. Aizpurietis
, 
M. Vanags
M. Vanags
, 
J. Kleperis
J. Kleperis
 und 
G. Bajars
G. Bajars
   | 22. Mai 2013
Latvian Journal of Physics and Technical Sciences's Cover Image
Über diesen Artikel
Vorheriger Artikel
Nächster Artikel
Zitieren
Online veröffentlicht: 22. Mai 2013
Seitenbereich: 53 - 59
DOI: https://doi.org/10.2478/lpts-2013-0012
This content is open access.

1. Hoffmann, P. (2012). Tomorrow's Energy: Hydrogen, Fuel Cells, and the Prospectsfor a Cleaner Planet. MIT Press, p. 367.10.7551/mitpress/8625.001.0001Search in Google Scholar

2. Engelhardt, V. (2010). The Electrolysis of Water: Processes and Applications. Nabu Press, p. 162Search in Google Scholar

3. Brown, A.P., Krumpelt, M., Loutfy, R.O., & Yao, N.P. (1982). The effect of surface roughness on the hydrogen evolution reaction kinetics with mild steel and nickel cathodes. Electrochimica Acta, 27, 557-56010.1016/0013-4686(82)85039-1Search in Google Scholar

4. Behzadian, B., Piron, D.L., Fan, C., & Lessard, J. (1991). Electrocatalytic effect on hydrogen evolution from copper materials plated from a chloride-containing bath. Int. J. Hydrogen Energy, 16, 791-79610.1016/0360-3199(91)90118-3Search in Google Scholar

5. Dolgikh, O.V., Kravtsova, Yu.G., & Sotskaya, N.V. (2010). The effect of composition of electrodeposited Ni-P alloys on the hydrogen evolution rate. Russian J. Electrochem. 46, 918-92410.1134/S1023193510080094Search in Google Scholar

6. Schiller, G., & Borck, V. (1992). Vacuum plasma sprayed electrodes for advanced alkaline water electrolysis. Int. J. Hydrogen Energy, 17, 261-27310.1016/0360-3199(92)90001-DSearch in Google Scholar

7. Starosta, R. (2009). Properties of thermal spraying Ni-Al alloy coatings. Adv. Mat. Sci.9, 30-4010.2478/v10077-009-0004-2Search in Google Scholar

8. Vanags, M., Kleperis, J., Bajars, G., & Lusis, A. (2007). Water electrolysis using electrodes with modified surface/volume. J Phys.: Conf., Ser. 93012025 doi: 10.1088/1742-6596/93/1/012025.10.1088/1742-6596/93/1/012025Search in Google Scholar

9. Renovation of metal spare parts with plasma jet coatings. Terpa-Serviss Ltd. http://www.terpa.lv/index.htmSearch in Google Scholar

10. Nikiforov, A., Christensen, E., Petrushina, I., Jensen, J.O., & Bjerrum, N.J. (2012). Advanced Construction Materials for High Temperature Steam PEM Electrolysers. In:“Electrolysis”, Ch. 4 (ed-s: J. Kleperis, V. Linkov). IntechOpen, 61-86, http://dx.doi.org/10.5772/5192810.5772/51928Search in Google Scholar

11. A Review of Techniques for Electrochemical Analysis. Application Note E-4, Princeton Applied Research. Available from: http://www.princentonaappliedresearch.com/Literature/index.aspxSearch in Google Scholar

12. Krishtalik, L.I. (1986). Charge Transfer Reactions in Electrochemical and ChemicalProcesses (1st ed-n). New York: Consultants Bureau, (Ed. U.S.A), 26-67.Search in Google Scholar

ISSN:
0868-8257
Sprache:
Englisch
Zeitrahmen der Veröffentlichung:
6 Hefte pro Jahr
Fachgebiete der Zeitschrift:
Physik, Technische und angewandte Physik
Zeitschrift RSS Feed