Method and system for determining the level of efficiency of a ventilation system of an electrical enclosure

The invention claimed is: 1. A method for determining the level of efficiency of a ventilation system of an electrical enclosure to house one or more electrical devices, said ventilation system comprising an air inlet, at least one fan for assisting injection of air inside the enclosure in order to cool each electrical device, an air inlet filter designed to filter the air injected inside the enclosure and an air outlet designed to allow evacuation of the hot air outside the enclosure, said method comprising: determining a profile of the power dissipated by the Joule effect inside the electrical enclosure by each electrical device, during a learning period; evaluating the level of efficiency of ventilation system, by: determining the average air flow rate of the fan over an evaluation period from a profile of the temperature of the air outside the enclosure obtained over said evaluation period, a profile of the temperature of the air at the outlet of the enclosure, and said dissipated power profile determined during the learning step, and comparing the average air flow rate determined over said evaluation period with one or more threshold values in order to determine the level of efficiency of the ventilation system; and outputting an indicator of the determined level of efficiency of the ventilation system. 2. A determination method according to claim 1 , comprising collecting data relating to temperatures of the air outside the enclosure during the learning period at given collection instants separated by a regular time interval. 3. A determination method according to claim 2 , comprising collecting data relating to temperatures of the air at the outlet of the enclosure during the learning period at given collection instants separated by said regular time interval. 4. A determination method according to claim 3 , wherein the profile of the power dissipated via the Joule effect by the electrical devices is obtained from the instantaneous power values determined for each collection instant of the learning period, each instantaneous power value being determined from the temperature of the air at the outlet of the enclosure at a collection instant of the learning period, the temperature of the air outside the enclosure at said collection instant of the learning period, and an initial air flow rate of the fan. 5. A determination method according to claim 1 , comprising collecting data relating to temperatures of the air outside the enclosure during the evaluation period at given collection instants separated by a regular time interval. 6. A determination method according to claim 5 , comprising collecting data relating to temperatures of the air at the outlet of the enclosure during the evaluation period at given collection instants separated by said regular time interval. 7. A determination method according to claim 6 , wherein, during the evaluating, said method comprises determining the instantaneous air flow rate of the fan at each of the collection instants of the evaluation period, from the power dissipated via the Joule effect by the electrical devices housed inside the enclosure and determined during the learning step at a corresponding instant of the learning period, the temperature of the air outside the enclosure measured at said instant, and the temperature of the air at the outlet of the enclosure measured at said instant. 8. A determination method according to claim 7 , wherein the average flow rate corresponds to the average of the instantaneous flow rates determined at each instant when the fan is in operation. 9. A determination method according to claim 1 , wherein the threshold values are fixed based on an initial air flow rate of the fan. 10. A system for determining the level of efficiency of a ventilation system of an electrical enclosure intended to house one or more electrical devices, said ventilation system comprising an air inlet, at least one fan for assisting injection of air inside the enclosure in order to cool each electrical device, an air inlet filter designed to filter the air injected inside the enclosure and an air outlet designed to allow evacuation of the hot air outside the enclosure, comprising: processing circuitry configured to determine a profile of the power dissipated by the Joule effect inside the electrical enclosure by each electrical device, during a learning period, evaluate the level of efficiency of the ventilation system, by: determining the average air flow rate of the fan over an evaluation period from a profile of the temperature of the air outside the enclosure obtained over said evaluation period, a profile of the temperature of the air at the outlet of the enclosure, and said dissipated power profile determined during the learning step, and comparing the average air flow rate determined over said evaluation period with one or more threshold values in order to determine the level of efficiency of the ventilation system; and output an indicator of the determined level of efficiency of the ventilation system. 11. A determination system according to claim 10 , wherein the processing circuitry is configured to collect data relating to temperatures of the air outside the enclosure during the learning period at given collection instants separated by a regular time interval. 12. A determination system according to claim 11 , wherein the processing circuitry is configured to collect data relating to temperatures of the air at the outlet of the enclosure during the learning period at given collection instants separated by said regular time interval. 13. A determination system according to claim 12 , wherein the profile of the power dissipated via the Joule effect by the electrical devices is obtained from the instantaneous power values determined for each collection instant of the learning period, each instantaneous power value being determined by a module from the temperature of the air at the outlet of the enclosure at a collection instant of the learning period, the temperature of the air outside the enclosure at said collection instant of the learning period, and an initial air flow rate of the fan. 14. A determination system according to claim 10 , wherein the processing circuitry is configured to collect data relating to temperatures of the air outside the enclosure during the evaluation period at given collection instants separated by a regular time interval. 15. A determination system according to claim 14 , wherein the processing circuitry is configured to collect data relating to temperatures of the air at the outlet of the enclosure during the evaluation period at given collection instants separated by said regular time interval. 16. A determination system according to claim 15 , wherein the the processing circuitry is further configured to determine the instantaneous air flow rate of the fan at each of the collection instants of the evaluation period, from the power dissipated via the Joule effect by the electrical devices housed inside the enclosure and determined during learning at a corresponding instant of the learning period, the temperature of the air outside the enclosure measured at said instant, and the temperature of the air at the outlet of the enclosure measured at said instant. 17. A determination system according to claim 16 , wherein the average flow rate rate corresponds to the average of the instantaneous flow rates determined at each instant when the fan is in operation. 18. A determination system according to claim 10 , wherein the threshold values are fixed based on an initial air f