In this study, a mechanical ventilation system with heat recovery integrated by heat pump was analysed. The recovery unit can works according different arrangements: passive plus thermodynamic recovery, only passive or active recovery and freecooling. The study was carried out to evaluate the energy performances of the system during the control of temperature in winter season. Tests were performed at different temperature values of simulated outdoor air To (-5 degrees C, 0 degrees C, 5 degrees C and 10 degrees C) and a fixed (reference) indoor simulated temperature (20 degrees C). Each trial was performed with a ventilation flow rate of 535 m(3)/h. The coefficient of performance of the overall system (COPs) is 9.50 at 0 degrees C, 8.86 at 5 degrees C and 6.62 at 10 degrees C respectively. At -5 degrees C the compressor behaved as an on-off type. This is due to a safety mechanism for the evaporator defrost. This behavior suggests the existence of a temperature value at which is preferable to switch from the static plus thermodynamic operation mode to another arrangement and vice-versa. Also a comparison with other prototypes found in literature and with a common commercial system was made. It results that SIVeMeC has higher energy performances in a wide range of temperature than other system analysed. (C) 2016 Elsevier B.V. All rights reserved.