Thermal Treatment of Waste PVC and Chlorine Neutralization by Waste Glass
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概要
- 論文の詳細を見る
The chlorine in polyvinyl chloride (PVC) originates from sodium chloride separated by electrolysis consuming a large amount of electricity. On the other hand, approximately 1/2 of soda ash, which is made from sodium chloride, is used for manufacturing soda glass. To show the potential of utilizing waste PVC and waste glass that have been mainly disposed as landfill, in the present work, it is experimentally demonstrated with a laboratory scale fixed bed reactor that most of the chlorine generated from PVC can be neutralized by sodium in waste glass particles forming NaCl in the range of 450–550°C. SEM and EDS studies confirmed the crystallized salt on the surface of glass particle after the reaction. Chlorine content in char was lower than NEDO’s RPF (refused plastic/paper fuel) target value for coal alternatives indicating that the product char can be readily combusted with little potential of corrosion of downstream units and toxic organic halides emissions. Closing the nationwide sodium and chlorine material flows can be conducted by reacting waste PVC with waste glass.
- 社団法人 化学工学会の論文
- 2005-03-01
著者
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NODA Reiji
Chemical and Environmental Engineering, Graduate School of Engineering, Gunma University
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HORIO Masayuki
Department of Chemical Engineering, Graduate School of Bio-Applications and Systems Engineering (BAS
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Noda Reiji
Chemical And Environmental Engineering Graduate School Of Engineering Gunma University
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Noda Reiji
Department Of Chemical Engineering Graduate School Of Bio-applications And Systems Engineering Tokyo
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Horio Masayuki
Department Of Chemical Engineering Graduate School Of Bio-applications And Systems Engineering (base
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Horio Masayuki
Department Of Chemical Engineering Graduate School Of Bio-applications And Systems Engineering Tokyo
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Sung Ho-jin
Department Of Chemical Engineering Graduate School Of Bio-applications And Systems Engineering Tokyo
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Horio Masayuki
Department of Applied Chemistry for Resources, Tokyo University of Agriculture and Technology
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