Slow burning test is developed from thermal explosion theory specifically for evaluating the response characteristics of explosives under external thermal stimulation. Slow burning test can only obtain the thermal reaction characteristics of a limited number of fixed measurement points inside the explosive，but cannot obtain the changes in other parts inside the explosive. However，the temperature at any point or surface inside the calculation area can be obtained directly using numerical simulation methods，and the shortcomings of the test can be made up for. In this paper，based on a specific explosive for a mine，the thermal safety of 6 kg and 100 kg level charge shells in a slow heating environment is studies using numerical simulation methods. The results are compared and analyzed with experimental data. The temperature errors of the two during response are 3.43% and 4.49%， respectively. This verifies the feasibility of the numerical calculation method and provides theoretical support for predicting the ignition temperature and position of slow burning test.