In the master thesis, an uncontrolled release of methyl methacrylate was simulated, which occurred at the end of the transport, when the tanker truck brought the substance to its final destination. The accident occurred in the car park of a company that uses the substance in its downstream processes, where it is processed into end products such as acrylic Plexiglas. The uncontrolled release of the substance was caused by deterioration of the material at the bottom of the tank, where an opening was created through which the substance leaked out onto the ground and formed a puddle. In carrying out the experimental work, I used the ALOHA programme, which is very suitable for carrying out this type of simulation. The programme allows the input of the type of hazardous substance involved in the accident, and also allows the selection between different accident scenarios, where for the purpose of the master's thesis the scenario of a substance leaking from a horizontal tank was chosen. In addition, any meteorological data that is expected to be present on the day of the accident can be entered into the software. In the master thesis, the simulation was carried out for two separate events, each with three possible scenarios. The first event was simulated under summer meteorological conditions and the second under winter meteorological conditions. These conditions were also the only parameters that varied between the two simulations. After the simulation, it turned out that ALOHA is suitable for simpler accident events where only one substance is involved, while it would not be suitable for simulating an event where several substances are involved. This is also one of the major drawbacks, besides the fact that it does not take into account surface relief differences when plotting the area of hazardous concentrations and the area of thermal radiation, which can also have a key influence on the extent of hazard propagation. For each incident, the hazard zones were plotted and represented in red, orange and yellow, with the highest concentrations of substances or thermal radiation in the red zone and the lowest in the yellow zone. The results of the simulation itself are quite similar in the two cases where thermal radiation to the surroundings was studied. So in the BLEVE explosion scenario and in the scecear scenario, where the material leaks out of the tank onto the ground, where it forms a puddle that ignites and burns like a pool fire. There were some differences only in the first scenario, i.e. when the substance is released from the tanker also onto the ground, except that the substance does not then ignite, but only evaporates into the atmosphere. In this case, the hazard areas plotted by the programme are slightly larger for summer meteorological conditions, when stronger winds were also present.