期刊
ENERGY
卷 262, 期 -, 页码 -出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.energy.2022.125385
关键词
Plasma gasification; Wood sawdust; Polyvinylchloride (PVC); Thermodynamic equilibrium calculation; Chlorine release behavior
This study systematically explores the syngas characteristics and chlorine release behavior during plasma cogasification of PVC and biomass. The results indicate that carbon conversion rate and chlorine release ratio are positively associated with power and steam/carbon ratio. Plasma cogasification of PVC and biomass yields higher H2 proportion and lower chlorine release ratio than mono-gasification. The thermodynamic calculation also verifies the lower percentage of gaseous chlorides from plasma cogasification than mono-gasification.
This study systematically explores the syngas characteristics and chlorine release behavior during plasma cogasification of polyvinylchloride (PVC) and biomass through experimental and thermodynamic methods. The results indicate that carbon conversion rate and chlorine release ratio are positively associated with power and steam/carbon ratio. Plasma co-gasification of PVC and biomass yields 4.96-16.95% higher H2 proportion and 1.84-41.41% lower chlorine release ratio than the weighted sum values of mono-gasification. The thermodynamic calculation also verifies the lower percentage (16.33-97.47 wt%) of gaseous chlorides (HCl(g), KCl(g), etc.) from plasma co-gasification than mono-gasification. The low level of average relative error (0.059) of thermodynamic simulation demonstrates its potential for quantitative analysis of chlorine release behavior. Redundancy analysis reveals that temperature is the most significant factor of carbon conversion rate, H2 proportion, and chlorine release ratio. This study could provide theoretical guidance for operational optimization and pollution control of plasma gasification.
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