Studies on Thermal Degradation of Synthetic Polymers (Part 10)

T. Sawaguchi, Takeshi Kuroki, T. Ikemura
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引用次数: 8

Abstract

Thermal gasification of polyethylene (PE), polypropylene (PP), and polyisobutylene (PIB) was carried out under atmospheric pressure using the flow system of a fixed bed reactor. From an experimental equation, IF=Tθa, product yields were estimated, where IF is the intensity function (°C•seca), T is the reaction temperature (°C), θ is the residence time (sec), and a is a constant (-). The effect of the structure of polyolefin on the value of "a" was also discussed.The pyrolysts conditions used in this study were as follows: temperature, 500∼800°C; the residence time, 0.6∼7.1sec; and the dilution ratio of steam to polymer by weight, 0.6∼7.5.The operating factors were inferred to be reaction temperature and residence time. For a given product yield, these two factors were interchangeable. Equations for yielding methane were expressed as_follows: (PE): IF=Tθ0.04, (PP); IF=Tθ0.05, (PIB); IF=Tθ0.07.As IF was correlated to the product yield, the product yield could be predicted by some appropriate choice of pyrolysis conditions. The value of "a" of a polyolefin was correlated to the activation energy (ΔE) for thermal degradation and to temperature (T1/2) corresponding to 50% weight loss. These two parameters were determined from the TG curve.
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合成聚合物的热降解研究(10)
采用固定床反应器的流动系统,在常压下对聚乙烯(PE)、聚丙烯(PP)和聚异丁烯(PIB)进行了热气化。根据实验方程IF=Tθa估算产物产率,其中IF为强度函数(°C•seca), T为反应温度(°C), θ为停留时间(sec), a为常数(-)。讨论了聚烯烃结构对“a”值的影响。本研究中使用的热解条件如下:温度,500 ~ 800℃;停留时间,0.6 ~ 7.1秒;水蒸气与聚合物的重量稀释比为0.6 ~ 7.5。操作因素为反应温度和停留时间。对于给定的产品收率,这两个因素是可以互换的。产甲烷方程表示如下:(PE): IF=Tθ0.04, (PP);如果Tθ= 0.05,(加以);如果Tθ= 0.07。由于IF与产物收率相关,因此可以通过适当选择热解条件来预测产物收率。聚烯烃的“a”值与热降解活化能(ΔE)和失重50%时对应的温度(T1/2)相关。这两个参数由热重曲线确定。
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