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W2314143132 abstract "Hydrothermal gasification of three different industrial waste streams (distillery, oil refinery and petrochemical complex) was investigated in a batch reactor. Catalytic activity of three transition metal oxide catalysts (MnO2, CuO and Co3O4) with various catalyst loadings (20, 40 and 60 wt%) was also studied at various temperatures (300–375 °C) and reaction times (15, 30, 45 min). It was revealed that distillery wastewater possessed a great potential for hydrogen production compared to other wastewaters. MnO2 was determined as a weak catalyst for hydrothermal gasification, while Co3O4 was the best choice according to both aspects of gasification efficiency and H2 mole fraction. The order of catalytic activity of catalysts for hydrogen production was as follow: Co3O4 > CuO > MnO2. It was also observed that 40 wt% loading of Co3O4 was the optimum value to gain the maximum attainable hydrogen from distillery wastewater. Moreover, higher temperature (375 °C) and longer reaction time (45 min) were favorable for hydrogen production. Finally, it was concluded that catalyst effectiveness was much pronounced at lower temperature and longer reaction time. Char formation was also significantly inhibited by the addition of catalyst." @default.
W2314143132 created "2016-06-24" @default.
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W2314143132 date "2016-08-01" @default.
W2314143132 modified "2023-10-17" @default.
W2314143132 title "Hydrogen production through hydrothermal gasification of industrial wastewaters using transition metal oxide catalysts" @default.
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W2314143132 doi "https://doi.org/10.1016/j.supflu.2016.03.028" @default.
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