温度是影响降解过程中化学反应速率的关键因素。因此，对初始溶液温度对嘧菌

Temperature is a key factor affecting the rate of chemical reaction in the degradation process. Therefore, the effect of the initial solution temperature on the degradation rate of azoxystrobin was tested. As shown in Figure 2-9, under the condition of gas flow rate of 1.5 SLM, different initial solution temperatures were tested, and the results showed that the degradation effect of azoxystrobin increased gradually over time, but the effect of different initial temperature treatment was at 297 K. The best is 98.1%. At 343 K, the degradation rate of 81.34% is the worst among the five temperatures. The degradation rate and the initial temperature of the solution showed a trend of first increasing and then decreasing with the temperature.

Temperature is a key factor affecting the rate of chemical reactions in degradation. Therefore, the effect of the initial solution temperature on the degradation rate of the steres was experimental. As shown in Figure 2-9, under the condition of gas flow 1.5 SLM, different initial solution temperatures were tested, and the results showed that the degradation effect of the steres increased gradually over time, but the effect of different initial temperature treatment was best at 297 K, reaching 98.1%, and at 343 K, 81.34% degradation rate was the worst of the five temperatures. The degradation rate and the initial temperature treatment effect of the solution showed a trend of first increasing and then decreasing with the temperature.

Temperature is the key factor affecting the chemical reaction rate in the degradation process. Therefore, the effect of initial solution temperature on the degradation rate of azoxystrobin was studied. As shown in Figure 2-9, the degradation rate of different initial solution temperature was tested under the condition of gas flow rate of 1.5 SLM. The results showed that the degradation effect of azoxystrobin increased with time, but the degradation rate of 81.34% at 343K was the best at 297k, reaching 98.1%, 81.34% at 343K, and the worst of 5 temperatures. The degradation rate and the initial temperature treatment effect of the solution increased first with the temperature, then decreased.<br>