典型城市固体废弃物热解动力学机理研究

利用热重（TGA）技术研究了城市固体废弃物中塑料橡胶类、木质纤维素类、织物类和厨余类四大类可燃组分中七种典型固体废弃物热解反应过程。实验结果表明，塑料类和织物类最难热解，厨余类组分最易热解；采用Freeman-Carroll法对七种典型固体废弃物热解进行数据处理，从20种常用的固相反应机制函数中遴选出最优解，利用优化的数学函数和动力学参数建立动力学模型，结果表明，PE和羊毛线热解主要反应阶段的最优固相反应模型是球形相界面反应模型；橡胶粉、杨树枝热解反应模型遵循化学反应规律；米饭和本白棉布热解曲线遵循幂函数法则；白菜的最优模型是三维扩散模型。

Research on kinetic analysis of typical municipal solid wastes (MSW) pyrolysis

The pyrolysis behavior of 7 kinds of typical municipal solid waste (MSW) was investigated by thermogravimetric analysis(TGA). The results show that the starting pyrolysis temperature of kitchen waste is lower than that of any other MSW, which is the most reactive substance among all the typical MSWs. On the contrary, the plastics and the textiles are more difficult to decompose. The Freeman-Carroll method was used for evaluating the activation energy. 20 kinds of mechanism functions of solid-state reaction were applied to the pyrolysis behavior of each component, and then the fitting results were compared to obtain the optimum solution. The optimizing mechanism function and kinetic parameters were used to deduce the kinetic model for 7 components. The data show that the globular symmetry phase boundary reaction mechanism is suitable for the pyrolysis process of PE and wool; 3D diffusion reaction mechanism is suitable for the pyrolysis process of cabbage; and the power law is suitable for the pyrolysis process of cotton and rice.