System and method for supplying heat to an exhaust gas after-treatment system of a plug-in hybrid electric vehicle

What is claimed is: 1. A system for supplying heat to an exhaust gas after-treatment system of a plug-in hybrid electric vehicle, comprising: a heat transfer device configured to transfer heat generated by at least one component of an electric system of the plug-in hybrid electric vehicle to the exhaust gas after-treatment system of the plug-in hybrid electric vehicle, wherein the heat transfer device is a convection heat transfer device or a conduction heat transfer device; and a controller configured to operate the heat transfer device. 2. The system according to claim 1 , wherein the electric system includes: a traction battery; an inverter; at least one electric machine; and a charging system including an inductive coil. 3. The system according to claim 2 , wherein the heat transfer device is configured to transfer heat generated by the at least one component of the electric system of the plug-in hybrid electric vehicle during charging or discharging the traction battery of the plug-in hybrid electric vehicle to the exhaust gas after-treatment system of the plug-in hybrid electric vehicle. 4. The system according to claim 3 , wherein a first circuit of the convection heat transfer device containing a first fluid is configured to absorb heat from the at least one component of the electric system of the plug-in hybrid electric vehicle, and wherein a second circuit of the convection heat transfer device containing a second fluid is configured to absorb heat from the first circuit and transfer the heat to the exhaust gas after-treatment system of the plug-in hybrid electric vehicle. 5. The system according to claim 4 , wherein the convection heat transfer device is configured to transfer heat generated by the traction battery during charging or discharging of the traction battery and to transfer heat generated by the inverter and the at least one electric machine during discharging of the traction battery to the inverter to drive the at least one electric machine. 6. The system according to claim 5 , wherein the convection heat transfer device is configured to transfer heat generated by the charging system, during charging of the traction battery. 7. The system according to claim 1 , wherein the conduction heat transfer device is disposed proximate to or abutting the traction battery and is configured to transfer heat during charging or discharging of the traction battery and to transfer heat by conduction generated by the inverter and the at least one electric machine during discharging of the traction battery to the inverter to drive the at least one electric machine. 8. The system according to claim 7 , wherein the conduction heat transfer device is disposed proximate to or abutting the charging system, and is configured to transfer heat by generated by the charging system, during charging of the traction battery. 9. A method for supplying heat to an exhaust gas after-treatment system of a plug-in hybrid electric vehicle, comprising: transferring, by a heat transfer device, heat generated by at least one component of an electric system of the plug-in hybrid electric vehicle to the exhaust gas after-treatment system of the plug-in hybrid electric vehicle, wherein the heat transfer device is a convection heat transfer device or a conduction heat transfer device; and operating, by a controller, the heat transfer device. 10. The method according to claim 9 , further comprising: in response to determining that the plug-in hybrid electric vehicle is plugged in to the grid and if a user will use the vehicle within a predetermined period of time, initiating or continuing, by the controller, charging and activation of the heat transfer device. 11. The method according to claim 9 , further comprising: in response to determining that the plug-in hybrid electric vehicle is plugged in to the grid and that a user will not use the vehicle within a predetermined period of time, detecting, by the controller, a charge level of a traction battery; and determining, by the controller, if a state of charge of the traction battery exceeds a predetermined threshold value. 12. The method of claim 11 , further comprising: in response to determining that the state of charge of the traction battery exceeds the predetermined threshold value, suspending, by the controller, charging of the traction battery until it is determined that the user will use the vehicle within the predetermined period of time. 13. The method according to any one of claim 12 , further comprising: setting, by the controller, a timer to initiate charging a traction battery to complete charging of the traction battery when the user is estimated to use the plug-in hybrid electric vehicle. 14. The method according to claim 13 , further comprising: estimating, by the controller, a point in time when the user will use the plug-in hybrid electric vehicle based on usage pattern data recorded in a vehicle storage unit or a cloud storage unit. 15. The method according to claim 9 , further comprising: in response to determining that the plug-in hybrid electric vehicle is driven by at least one electric machine only, activating, by the controller, the heat transfer device. 16. The method according to claim 9 , further comprising: in response to determining that a traction battery of the plug-in hybrid electric vehicle is charged by operating at least one electric machine as a generator, activating, by the controller, the heat transfer device.