Chemical recycling of PET by catalyzed glycolysis: Kinetics of the heterogeneous reaction
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- 作者:Mateus E. ; Viana ; André ; ; Riul ; Gizilene M. ; Carvalho ; ; ; gizilenecarvalho@gmail.com ; Adley F. ; Rubira ; Edvani C. ; Muniz
- 关键词:Glycolysis ; PET ; Granulometry ; Surface area ; Mathematical model ; Glycolysis kinetic
- 刊名:Chemical Engineering Journal
- 出版年:2011
- 出版时间:1 September 2011
- 年:2011
- 卷:173
- 期:1
- 页码:210-219
- 全文大小:612 K
- ISSN:S1385894711008588
文摘
Polyethylene terephthalate post-consume (PET-pc) glycolysis was investigated by the use of ethylene glycol (EG) and zinc acetate, as catalyst. It was focused the kinetic aspects through use of mathematical model specially developed for application in this study. The grains-lot was sieved in different size ranges and a relation between surface area and granulometry, surface area and temperature on the conversion and depolymerization rate was proposed. At temperatures ranging 180?90 °C the depolymerization rate is quite elevated and almost 100% of conversion is obtained up to 3 or 4 h reaction time. For lower temperatures (170?80 °C), equilibrium is achieved and it becomes more important as the temperature is decreased. The conversion profile showed an initial activation stage where the mass transfer between the liquid and solid phases is minimal. The proposed mathematic model was based on these findings and on reaction mechanism that differentiates the reaction sites present in the PET surface. By that model the value of rate constant (k) for each temperature, and the dependence of k with 1/T was calculated. Four our best knowledge it is the first time that a mathematical model considers the activation stage in the earlier times of PET depolymerization reaction. The inputs yielding, time and temperature were included in the used mathematical model that fits very well the experimental data obtained at temperatures higher than 180 °C. This model helps to predict the necessary mass of PET for producing a desired amount of products.