It is disclosed a method and system for controllably adjusting temperature of a training area of an interactive training simulator performing an interactive computer simulation. The interactive training simulator, such as a flight simulator, is associated with a non- simulated area (NSA) housing electronic components used for performing the simulation. The heat generated in the NSA is transferred to the training area, or cockpit, hence eliminating the need for a heating system. Hence, the controlled recirculation of the hot air into the non- simulated area (NSA) improves efficiency of the interactive training simulator and reduces energy consumption. The system also maintains air quality inside the training area by continuously monitoring non- temperature related parameters such as humidity, or gas, volatile organic compounds (VOC) or particle concentrations. The system and method disclosed herewith are eco- friendly in that they allow reducing the amount of electricity for operating the interactive training simulator, and as such reducing the amount of CO2.
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