System analysis process of the thermal oxidative degradation

In this article the technological process of synthesis of low molecular weight polymers using the method of the thermal oxidative degradation as a control object is considered. It is revealed, that the main control parameters affecting the rate of degradation are: a reaction initiator concentration, temperature and mass concentration of the polymer. The degree of degradation, quality of produced polymer and the reaction time are the main control parameters. It is established that the process temperature and concentration of initiator should be stabilized in the vicinity of a predetermined value, and the value of the mass concentration is set by the initial dose components for effective control. In this case the kinetics of the degradation process can be described by a linear dependence of time. That is degree of degradation is linearly related with time reaction. Then the process of degradation is conducted by time to the predetermined degradation degree value by determining initial quality of the polymer. Due to initiator is expended in the process of degradation, then for stabilizing its concentration is offering its continuously input into the reaction medium. The mathematical model, describing the kinetics of continuous feed initiator, and dependence for calculating the initiator feed rate. The parameters of the linear approximating dependence of the degradation kinetics are defined. It is displayed, that graph kinetics of degradation is constantly striving to its linear asymptote at short time degradation. The inclination angle of this asymptote depends on the degradation rate constant (i.e., reaction temperature) and on the initial concentration of initiator. The degradation kinetics on the ordinate offset is depended on the initial molar concentration of polymer. Thus, to control the rate of degradation by selecting the initial concentration of the polymer is possible.