摘要:本论文首先合成了[Bmim]OH和1 -甲基-3 - 3 -(丙基三乙氧基硅烷)咪唑羟基接入HAP-γ-Fe2O3(即离子液体2)两种离子液体,并且尝试用离子液体2作为催化剂进行PET的降解。然后用十八烷基三甲基氯化铵作为催化剂对PET进行降解。并且做了一系列实验来测定不同温度、时间、催化剂用量下的PET降解效率,分别是(1)相同反应时间和催化剂用量、不同反应温度下的反应效率;(2)相同反应时间和反应温度、不同催化剂用量下的反应效率;(3)两组相同反应温度和催化剂用量、不同反应时间下的反应效率。最后选出较了好降解效率下的反应条件。
实验结果显示,离子液体催化PET降解的效率至少可以达到59%以上。因此,将离子液体运用在PET降解的工业中是可行的,并且PET降解后产生的TPA也可以以比较高的效率回收,是一种适合长远发展的比较绿色的降解方法。10349
关键词:离子液体、PET、降解
The system of environment-friendly degradation of the PET
Abstract:This thesis Synthesis of [BMIM] OH and 1 - methyl-3 - 3 - (propyl triethoxysilane) imidazol-hydroxy access HAP-gamma-Fe2O3 (i.e., the ionic liquid No.2),and try to use the ionic liquid 2 as a catalyst degradation of the PET first. Then use octadecyl trimethyl ammonium chloride for the degradation of the PET. Then I made a series of experiments to determine the type of temperature, time, amount of catalyst PET degradation efficiency, the efficiency of the reaction (1) is under the same reaction time and the amount of catalyst, the type of reaction temperature; (2) The same reaction time and the reaction temperature , a different amount of catalyst under reaction efficiency; (3) groups of the same reaction temperature and the amount of catalyst, the type of reaction time, the reaction efficiency. Finally, selected good degradation efficiency compared to the reaction conditions, and finally with the NMR determination of the reaction of TPA recovered.
The results of experimental show that the ionic liquid catalytic the PET degradation of the efficiency is relatively high. Accordingly, use of the ionic liquid in the in PET degradation of Industrial is feasible, and the the PET degradation of TPA can also be recovered with a relatively high efficiency, is suitable for long-term development of green degradation method.
Key words:Ionic Liquid、PET、degradation
目录
1. 前言 1
1.1 PET聚酯简要介绍 1
1.2 PET聚酯降解的主要方法 1
1.2.1 物理回收法 2
1.2.2 醇解法 2
1.2.3 水解法 2
1.2.4 碱性氨解和胺解 3
1.2.5 其他化学回收法 3
1.2.6 生物及酶降解法 4
1.3 离子液体简要介绍 4
1.3.1 离子液体的性质 5
1.3.2 离子液体的分类 6
1.3.3 离子液体的合成 6
1.4 离子液体的应用 8
1.4.1 离子液体在聚合物溶解方面的应用 8
1.4.2 离子液体在聚合物降解方面的应用 9
1.4.3 离子液体在萃取分离中的应用 9
1.4.4 离子液体在电化学中的应用 9
1.4.5 离子液体在有机合成中的应用 9
1.5 离子液体在PET降解中的应用 12
1.6 课题研究内容及意义 13
2. 实验结果与讨论 13
2.1 实验试剂 13
2.2 实验方法 15
2.2.1 [Bmim]OH的合成 15 环境友好的PET聚酯的降解体系设计:http://www.youerw.com/huaxue/lunwen_9380.html