Optimization of ventilation of an indoor ice rink by numerical simulation of air flows

An important task in the design of objects with artificial ice cover is to provide them with a modern ventilation and air conditioning system, which allows maintaining the parameters of the air environment in the volume of the arena’s premises. A properly organized air exchange with an accurately calculated flow rate should ensure stable and comfortable air parameters on the roller for various zones. However, due to the complexity of the picture of thermal, mass transfer and air processes occurring during the operation of the ice arena, standard design techniques often do not allow to obtain the desired result. Therefore, at the present stage, it is extremely urgent to raise the quality of design of these objects, which can be done using the capabilities of the computer 3D-modeling method. At the moment, in the Russian Federation, modeling of air flows in the design of indoor ice platforms is used only in the construction of large facilities of national scale. This work presents a practical study on the possibility of using the method of numerical computer modeling to develop solutions to improve the ventilation systems of an existing facility of regional significance.