System and method for controlling the emissions of a spark-ignition internal combustion engine of a motor-vehicle

1 . A system for controlling emissions of a spark-ignition internal combustion engine of a motor-vehicle, comprising: an exhaust gas conduit for exhaust gases of the internal combustion engine, a first exhaust gas treatment device interposed in the exhaust gas conduit and a second exhaust gas treatment device interposed in the exhaust gas conduit, downstream of the first exhaust gas treatment device, with reference to a direction of flow of the exhaust gases, a system for feeding secondary air into the exhaust gas conduit between the first and second exhaust gas treatment devices, a system for controlling an air/fuel ratio of the internal combustion engine, and an electronic controller configured for controlling the system for feeding secondary air and the system for controlling the air/fuel ratio, wherein: the system for feeding secondary air is configured for feeding the secondary air into the exhaust gas conduit only between the first and second exhaust gas treatment devices, the second exhaust gas treatment device is arranged away from the first exhaust gas treatment device by a distance so as to obtain that a temperature of the exhaust gases in the second exhaust gas treatment device is lower by at least 50° C. with respect to a temperature of the exhaust gases in the first exhaust gas treatment device, the electronic controller is configured for activating the system for feeding secondary air when an engine load of the internal combustion engine is greater than a predetermined load value and/or when a rotational speed of the internal combustion engine is greater than a predetermined speed value, the electronic controller is configured for keeping the air/fuel ratio substantially at a stoichiometric value when the engine load is lower than said predetermined load value and/or when the engine rotational speed is lower than said predetermined speed value, the electronic controller is configured for keeping the air/fuel ratio at a value lower than the stoichiometric value, so as to feed a rich mixture to the internal combustion engine, when the engine load is greater than said predetermined load value and/or when the engine rotational speed is greater than said predetermined speed value, and the electronic controller is configured so that, when the system for feeding secondary air is activated, a quantity of secondary air is controlled on the basis of a signal emitted by a lambda probe arranged downstream of the second exhaust gas treatment device in order to obtain a mixture with an air/fuel ratio corresponding to the stoichiometric value or greater than the stoichiometric value in the second exhaust gas treatment device. 2 . The system according to claim 1 , wherein the internal combustion engine is an engine supercharged by a compressor, and wherein the system for feeding secondary air comprises an electronically controlled valve interposed in a conduit for feeding air to the engine, downstream of the compressor and having an outlet connected to the exhaust gas conduit, between the first and second exhaust gas treatment devices. 3 . The system according to claim 1 , wherein the system for feeding secondary air comprises an auxiliary air feeding line and an electrically actuated pump arranged in said auxiliary feeding line. 4 . The system according to claim 1 , wherein said electronic controller is configured so that, when the system for feeding secondary air is activated, the quantity of secondary air is controlled also on a basis of a detected or calculated value of the temperature of the exhaust gases in the second exhaust gas treatment device. 5 . The system according to claim 1 , wherein the electronic controller is configured for controlling activation of the system for feeding secondary air on a basis of a map, as a function of values of the engine load and the engine rotational speed. 6 . The system according to claim 1 , wherein the electronic controller is configured for activating a feeding of secondary air for warming up the second exhaust gas treatment device during engine warm-up. 7 . The system according to claim 1 , wherein the electronic controller is configured for activating a feeding of secondary air when a need is detected of regenerating a particulate filter which is arranged in said exhaust gas conduit. 8 . The system according to claim 1 , wherein the second exhaust gas treatment device is a two-way or three-way catalytic converter or a particulate filter for gasoline engines. 9 . The system according to claim 1 , wherein the first exhaust gas treatment device is a three-way catalytic converter. 10 . The system according to claim 1 , wherein the second exhaust gas treatment device is configured to be arranged outside of the motor-vehicle, below a floor panel, whereas the first exhaust gas treatment device is configured to be located inside the motor-vehicle above the floor panel. 11 . A method for controlling emissions of a spark-ignition internal combustion engine for motor-vehicles, comprising: providing a first exhaust gas treatment device and a second exhaust gas treatment device in an exhaust gas conduit of the engine, the second exhaust gas treatment device being arranged downstream of the first exhaust gas treatment device, with reference to a direction of flow of exhaust gases, providing a secondary air feeding system in the exhaust gas conduit between the first and second exhaust gas treatment devices, and providing a system for controlling an air/fuel ratio of the engine, wherein: the secondary air feeding system is configured for feeding secondary air into the exhaust gas conduit only between the first and second exhaust gas treatment devices, the second exhaust gas treatment device is arranged away from the first exhaust gas treatment device by a distance so as to obtain that a temperature of the exhaust gases in the second exhaust gas treatment device is lower by at least 50° C. with respect to a temperature of the exhaust gases in the first exhaust gas treatment device, said method further comprising: activating the secondary air feeding system when a load of the engine is greater than a predetermined load value and/or when a rotational speed of the engine is greater than a predetermined speed value, keeping the air/fuel ratio substantially at a stoichiometric value when the load of the engine is lower than said predetermined load value and/or when the rotational speed of the engine is lower than said predetermined speed value, keeping the air/fuel ratio at a value lower than the stoichiometric value, so as to feed the engine with a rich mixture, when the load of the engine is greater than said predetermined load value and/or when the rotational speed of the engine is greater than said predetermined speed value, and when the secondary air feeding system is activated, controlling a quantity of a secondary air on a basis of a signal emitted by a lambda probe arranged downstream of the second exhaust gas treatment device, so as to obtain a mixture having an air/fuel ratio corresponding to the stoichiometric value or to a value greater than the stoichiometric value in the second exhaust gas treatment device. 12 . The method according to claim 11 , wherein when the secondary air feeding system is activated, the quantity of secondary air is controlled also on a basis of a detected or calculated value of the temperature of the exhaust gases in the second exhaust gas treatment device. 13 . The method according to claim 11 , wherein activation of the secondary air feeding system is controlled on a basis of a map, as a function of values of the load and rotational speed of the engine.