Liquid N-2 could be injected into goaf to decrease temperature and prevent spontaneous combustion during mining. A working face at Liangbaosi coal mine was adopted for study. Firstly, a mathematical model for calculating the temperature field in goaf was developed and field tests without injection of liquid N-2 were conducted to validate the model. Comparable development trends and hot zones between the simulation and field measurements were found. The hot zones were located about 35-45 m behind the workface on the air-return and air-intake sides in the goaf. Then the model was employed to simulate the time development of temperature distribution in the goaf with injection of liquid N-2 from different locations. It was observed that a low-temperature cooling zone (<300K) due to injection of liquid N-2 gradually grew and became relatively stable 90 min after continuous injection. The size of the cooling zone depends on the injection location and flow rate. The cooling zone was smaller when the N-2 was injected from the air-intake side than from the air-return side. The largest cooling zone was found when the N-2 was injected 35m behind the workface from the air-return side. The cooling zone increases with increasing N-2 perfusion rate. This study provides a quantitative assessment for preventing coal oxidation and spontaneous combustion using the liquid N-2 technology. (C) 2019 Institution of Chemical Engineers. Published by Elsevier B.V. All rights reserved.