Serbian Ministry of Science and Ecology

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Serbian Ministry of Science and Ecology

Authors

Publications

Reduction of nanometric magnetite powder

Vulievic, Lj.; Ivanović, Nenad; Popovic, N.; Kusigerski, Vladan; Sreckovic, M.; Tomić, Željka; Vardic, S.

(2007) 

TY  - CONF
AU  - Vulievic, Lj.
AU  - Ivanović, Nenad
AU  - Popovic, N.
AU  - Kusigerski, Vladan
AU  - Sreckovic, M.
AU  - Tomić, Željka
AU  - Vardic, S.
PY  - 2007
UR  - https://vinar.vin.bg.ac.rs/handle/123456789/6691
AB  - The investigated nanometric magnetite powders were synthesized electrochemically, and examined by XRD and SEM techniques. Their reduction was conducted through the isothermal heating in hydrogen in the temperature range from 600 to 860 K. Kinetics of the hydrogen recovery process during oxidation of freshly formed Fe powders in a water vapor stream was also studied. It was assumed that the solid-gas reaction is diffusion controlled, and Janders model was applied to describe it. The experimental data suggest that the reoxidation process proceeds in two stages, at various activation energies. By changing the conditions of the electrochemical (EC) process we were able to produce the iron oxide powders with optimal particle size and activity, for pure hydrogen production through appropriate reduction/oxidation processes.
C3  - Materials Science Forum
T1  - Reduction of nanometric magnetite powder
VL  - 555
SP  - 273
EP  - +
DO  - 10.4028/www.scientific.net/MSF.555.273
ER  - 
@conference{
author = "Vulievic, Lj. and Ivanović, Nenad and Popovic, N. and Kusigerski, Vladan and Sreckovic, M. and Tomić, Željka and Vardic, S.",
year = "2007",
abstract = "The investigated nanometric magnetite powders were synthesized electrochemically, and examined by XRD and SEM techniques. Their reduction was conducted through the isothermal heating in hydrogen in the temperature range from 600 to 860 K. Kinetics of the hydrogen recovery process during oxidation of freshly formed Fe powders in a water vapor stream was also studied. It was assumed that the solid-gas reaction is diffusion controlled, and Janders model was applied to describe it. The experimental data suggest that the reoxidation process proceeds in two stages, at various activation energies. By changing the conditions of the electrochemical (EC) process we were able to produce the iron oxide powders with optimal particle size and activity, for pure hydrogen production through appropriate reduction/oxidation processes.",
journal = "Materials Science Forum",
title = "Reduction of nanometric magnetite powder",
volume = "555",
pages = "273-+",
doi = "10.4028/www.scientific.net/MSF.555.273"
}
Vulievic, Lj., Ivanović, N., Popovic, N., Kusigerski, V., Sreckovic, M., Tomić, Ž.,& Vardic, S.. (2007). Reduction of nanometric magnetite powder. in Materials Science Forum, 555, 273-+.
https://doi.org/10.4028/www.scientific.net/MSF.555.273
Vulievic L, Ivanović N, Popovic N, Kusigerski V, Sreckovic M, Tomić Ž, Vardic S. Reduction of nanometric magnetite powder. in Materials Science Forum. 2007;555:273-+.
doi:10.4028/www.scientific.net/MSF.555.273 .
Vulievic, Lj., Ivanović, Nenad, Popovic, N., Kusigerski, Vladan, Sreckovic, M., Tomić, Željka, Vardic, S., "Reduction of nanometric magnetite powder" in Materials Science Forum, 555 (2007):273-+,
https://doi.org/10.4028/www.scientific.net/MSF.555.273 . .
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