摘要
在常压较低温度下,通过四氯化碳将铝粉活化后使之与PVC反应,将PVC中的有机氯转化为AlCl3中的无机氯,从而达到脱氯目的。使用傅里叶红外光谱仪、 X射线粉末衍射仪和扫描电子显微镜对在最佳反应温度60℃时各阶段产生的物质处理后表征发现:活化溶剂CCl4及洗涤剂无水乙醇均可回收利用;副产物Al Cl3是不含结晶水的,具有较高经济价值; PVC降解后的最终产物是含有-OH和C=C (非共轭双键)的小分子有机物集合体,且其氯含量小于0.20%。本方法操作简单、成本低、脱氯效果达99%以上,为解决废旧PVC塑料污染问题提供了新思路。
At normal pressure and a lower temperature,the aluminum powder was activated by carbon tetrachloride to react with PVC,and the organic chlorine in PVC was converted into inorganic chlorine as the form of Al Cl3 to achieve the purpose of dechlorination.Under the optimum reaction temperature of 60℃,the materials produced in each stage were processed and then were characterized by Fourier transform infrared spectroscopy,X-ray powder diffractometry and scanning electron microscopy.The results showed that the activating solvent CCl4 and anhydrous ethanol can be recycled;the by-product AlCl3 was free of water with high economic value;the final product from the degradation of PVC was a small molecular organic aggregate containing-OH and C=C(non-conjugated double bonds),and its chlorine content was less than 0.20%.This method has the advantages of simple operation,low cost and excellent dechlorination effect,and provides a new idea for the treatment of waste PVC.
作者
段政
徐明英
郝敏
刘艳
高建峰
DUAN Zheng;XU Ming-ying;HAO Min;LIU Yan;GAO Jian-feng(School of Science,North University of China,Taiyuan 030051,China)
出处
《精细化工中间体》
CAS
2019年第1期29-33,共5页
Fine Chemical Intermediates
基金
国家自然科学基金项目(51775521)
山西省重点研发项目社会发展方面(201803D31059)
关键词
常压
低温
PVC塑料
降解
脱氯
ordinary pressure
lowtemperature
PVC plastics
degradation
dechlorination
