Preparation of activated carbon from spent catalyst with mercury by microwave‐induced CO 2 activation

This study reported the regeneration of mercury‐loaded porous carbon catalyst utilized in the manufacture of PVC (Polyvinyl chloride) resin using the combined effect of microwave heating and CO 2 purging. The porosity, functional, and surface chemistry was featured by means of low‐temperature nitrog...

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Veröffentlicht in:	Asia-Pacific journal of chemical engineering 2019-01, Vol.14 (1)
Hauptverfasser:	Liu, Jian, Liu, Chenhui, Zhang, Libo, Liu, Chao, Cheng, Song, Chandrasekar Srinivasa, Kannan
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Sprache:	eng
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container_title	Asia-Pacific journal of chemical engineering
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creator	Liu, Jian Liu, Chenhui Zhang, Libo Liu, Chao Cheng, Song Chandrasekar Srinivasa, Kannan
description	This study reported the regeneration of mercury‐loaded porous carbon catalyst utilized in the manufacture of PVC (Polyvinyl chloride) resin using the combined effect of microwave heating and CO 2 purging. The porosity, functional, and surface chemistry was featured by means of low‐temperature nitrogen adsorption, scanning electron microscopy, Fourier‐transform infrared spectroscopy, Raman spectroscopy, and X‐ray photoelectron spectroscopy. The result showed that the iodine number, methylene blue adsorption, and yield of FMC were 791.64 mg/g, 270 mg/g, and 84.2%, respectively, under the best conditions. Additionally, the mercury removal rates were above 99.5% at different temperatures. The regenerated samples at different temperatures were characterized to assess their physical binding capability and chemisorption abilities, which further revealed the impact of regeneration temperature on the improvement in the porosity of the regenerated catalyst. The findings revealed the potential of microwave heating for the regeneration of FMCs.
doi_str_mv	10.1002/apj.2272
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The porosity, functional, and surface chemistry was featured by means of low‐temperature nitrogen adsorption, scanning electron microscopy, Fourier‐transform infrared spectroscopy, Raman spectroscopy, and X‐ray photoelectron spectroscopy. The result showed that the iodine number, methylene blue adsorption, and yield of FMC were 791.64 mg/g, 270 mg/g, and 84.2%, respectively, under the best conditions. Additionally, the mercury removal rates were above 99.5% at different temperatures. The regenerated samples at different temperatures were characterized to assess their physical binding capability and chemisorption abilities, which further revealed the impact of regeneration temperature on the improvement in the porosity of the regenerated catalyst. 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title	Preparation of activated carbon from spent catalyst with mercury by microwave‐induced CO 2 activation
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