System and method of stabilizing combustion of hybrid electric vehicle

What is claimed is: 1. A system of stabilizing combustion comprising: an engine having a combustion chamber, an intake manifold and an exhaust manifold; an injector supplying fuel into the intake manifold or the combustion chamber; a starter connected to the engine and rotating the engine with or without the fuel being supplied; an intake duct connected to the intake manifold and supplying air to the intake manifold; an exhaust pipe connected to the exhaust manifold and discharging an exhaust gas to an exterior of the engine; a recirculation pipe fluidly communicating the exhaust pipe with the intake manifold or the intake duct and recirculating a portion of the exhaust gas to the intake manifold or the intake duct; an exhaust gas recirculation module controlling the amount of the exhaust gas recirculated to the intake manifold or the intake duct; and a controller monitoring a vehicle operation state and controlling operation of the starter and the injector, wherein the controller controls the starter to rotate the engine without fuel injection before starting the engine after an engine starting condition is satisfied or after an engine stop condition is satisfied and the engine is stopped. 2. The system of claim 1 , wherein the starter controls the number of rotations of the engine or the rotation speed of the engine without fuel injection. 3. The system of claim 2 , further comprising a throttle mounted in the intake duct, in the intake manifold, or between the intake manifold and the intake duct, wherein the throttle controls the amount of the air supplied to the intake manifold is, and wherein the number of rotations of the engine or the rotation speed of the engine without fuel injection is determined according to an opening of the throttle, or a shape of the intake duct or the intake manifold. 4. The system of claim 1 , further comprising a selective connecting device disposed between the engine and the transmission or in the transmission that selectively connects the engine to the transmission, and wherein the vehicle is a hybrid electric vehicle using the engine and a drive motor as power sources and the power of the engine or power of the drive motor is output through a transmission. 5. The system of claim 4 , wherein rotation of the engine without fuel injection is performed when the engine is disconnected from the transmission by the selective connecting device. 6. The system of claim 1 , wherein the controller further determines whether an idling condition is satisfied if the engine starting condition is satisfied, and rotates the engine without fuel injection if the idling condition is satisfied. 7. The system of claim 6 , further comprising a catalytic converter containing a catalyst mounted on the exhaust pipe for purifying the exhaust gas, and wherein the idling condition is satisfied when temperature of the catalyst is lower than or equal to a first predetermined temperature. 8. The system of claim 1 , wherein the controller further determines whether an idling condition is satisfied if the engine stop condition is satisfied, and rotates the engine without fuel injection if the idling condition is satisfied. 9. The system of claim 8 , wherein a catalytic converter containing a catalyst for purifying the exhaust gas is mounted on the exhaust pipe, and wherein the idling condition is satisfied when temperature of the catalyst in the catalytic converter is higher than or equal to a second predetermined temperature. 10. A method of stabilizing combustion in a hybrid electric vehicle, the hybrid electric vehicle using a drive motor and an engine as power sources and comprising an injector supplying fuel into the engine, a starter rotating the engine with or without the fuel being supplied by the injector, and an exhaust gas recirculation module recirculating a portion of an exhaust gas generated in the engine back into the engine, the method comprising: monitoring a vehicle operation state; determining whether an engine starting condition is satisfied; and having the controller cause the starter to rotate the engine without fuel injection for a predetermined number of rotations or for a predetermined time if the engine starting condition is satisfied. 11. The method of claim 10 , further comprising starting the engine by rotating the engine with fuel injection after rotating the engine without fuel injection for the predetermined number of rotations or for the predetermined time. 12. The method of claim 11 , wherein the hybrid electric vehicle further comprises a transmission outputting the power of the drive motor or power of the engine with or without power conversion, and a selective connecting device selectively connecting the engine with the transmission, and wherein the method further comprises connecting the engine with the transmission by the selective connecting device after starting the engine. 13. The method of claim 10 , further comprising determining whether an idling condition is satisfied if the engine starting condition is satisfied, and wherein, if the idling condition is satisfied, having the controller cause the starter to rotate the engine without fuel injection for the predetermined number of rotations or for the predetermined time. 14. The method of claim 13 , wherein the hybrid electric vehicle further comprises a catalytic converter containing a catalyst that purifies the exhaust gas generated in the engine, and wherein the idling condition is satisfied when temperature of the catalyst in the catalytic converter is lower than or equal to a first predetermined temperature. 15. A method of stabilizing combustion in a hybrid electric vehicle, the hybrid electric vehicle using a drive motor and an engine as power sources and comprising an injector supplying fuel into the engine, a starter rotating the engine with or without the fuel being supplied by the injector, an exhaust gas recirculation module recirculating a portion of an exhaust gas generated in the engine back into the engine, a transmission outputting power of the drive motor or power of the engine with or without power conversion, and a selective connecting device selectively connecting the engine with the transmission, the method comprising: monitoring a vehicle operation state when the vehicle runs with the power of the engine or with both of the power of the engine and the power of the motor; determining whether an engine stop condition is satisfied; having the controller cause the selective connecting device to disconnect the transmission from the engine and stop fuel injection if the engine stop condition is satisfied; and having the controller cause the starter to rotate the engine for a predetermined number of rotations or for a predetermined time. 16. The method of claim 15 , further comprising determining whether an idling condition is satisfied if the engine stop condition is satisfied, and wherein, if the idling condition is satisfied, having the controller cause the starter to rotate the engine for the predetermined number of rotations or for the predetermined time. 17. The method of claim 16 , wherein the hybrid electric vehicle further comprises a catalytic converter containing a catalyst that purifies the exhaust gas generated in the engine, and wherein the idling condition is satisfied when temperature of the catalyst is higher than or equal to a second predetermined temperature.