System and method for reducing cold start emissions using an active exhaust throttle valve and an exhaust gas recirculation loop

What is claimed is: 1. A system comprising: an engine start circuit that determines when an engine is started based on at least one of an input from an ignition system and a speed of the engine; and an exhaust throttle valve control circuit that: selectively fully closes an exhaust throttle valve in an exhaust system of the engine when the engine is started to trap exhaust gas in the exhaust system; and selectively fully opens the exhaust throttle valve independent of a temperature of a catalyst in the exhaust; determines whether a capacity of an exhaust gas recirculation (EGR) loop to store exhaust gas is reached based on a volume of the EGR loop, engine speed, and engine load; and fully opens the exhaust throttle valve when the capacity of the EGR loop to store exhaust gas is reached. 2. The system of claim 1 further comprising a catalyst temperature circuit that determines a temperature of a catalyst in the exhaust system, wherein the exhaust throttle valve control circuit fully closes the exhaust throttle valve when the engine is started and the catalyst temperature is less than a predetermined temperature. 3. The system of claim 2 wherein the catalyst temperature circuit estimates the catalyst temperature based on an amount of fuel delivered to cylinders of the engine and a timing of spark generated in the cylinders. 4. The system of claim 2 further comprising an exhaust gas recirculation (EGR) valve control circuit that opens an EGR valve when the engine is started to allow gas to flow from the exhaust system to an intake system of the engine through an EGR loop. 5. The system of claim 4 further comprising: the exhaust throttle valve; the EGR loop; the EGR valve; and a heat exchanger including a coolant passage, wherein coolant in the coolant passage absorbs heat from exhaust gas in the EGR loop when the engine is started. 6. The system of claim 4 wherein the EGR valve control circuit adjusts the EGR valve to a fully open position when the engine is started, maintains the EGR valve in the fully open position for a first period, and then adjusts the EGR valve from the fully open position to a fully closed position. 7. The system of claim 6 wherein the EGR valve control circuit modulates the EGR valve between partially open positions for a second period when at least one of: exhaust pressure is greater than or equal to a predetermined pressure; and exhaust temperature is greater than or equal to a predetermined temperature. 8. The system of claim 7 wherein the EGR valve control circuit determines the second period based on a volume of the EGR loop, a combustion tolerance of the engine, an ambient air temperature, an engine coolant temperature, and a soak time of the engine. 9. The system of claim 1 wherein the exhaust throttle valve control circuit fully opens the exhaust throttle valve when a torque request is greater than a predetermined value. 10. A method comprising: determining when an engine is started based on at least one of an input from an ignition system and a speed of the engine; selectively fully closing an exhaust throttle valve in an exhaust system of the engine when the engine is started to trap exhaust gas in the exhaust system; selectively fully opening the exhaust throttle valve independent of a temperature of a catalyst in the exhaust system; determining whether a capacity of an exhaust gas recirculation (EGR) loop to store exhaust gas is reached based on a volume of the EGR loop, engine speed, and engine load; and fully opening the exhaust throttle valve when the capacity of the EGR loop to store exhaust gas is reached. 11. The method of claim 10 further comprising: determining a temperature of a catalyst in the exhaust system; and fully closing the exhaust throttle valve when the engine is started and the catalyst temperature is less than a predetermined temperature. 12. The method of claim 11 further comprising estimating the catalyst temperature based on an amount of fuel delivered to cylinders of the engine and a timing of spark generated in the cylinders. 13. The method of claim 11 further comprising opening an EGR valve when the engine is started to allow gas to flow from the exhaust system to an intake system of the engine through an EGR loop. 14. The method of claim 13 further comprising cooling exhaust gas in the EGR loop using a heat exchanger when the engine is started, the heat exchanger including a coolant passage, wherein coolant in the coolant passage absorbs heat from exhaust gas in the EGR loop. 15. The method of claim 13 further comprising: adjusting the EGR valve to a fully open position when the engine is started; maintaining the EGR valve in the fully open position for a first period; and when the first period ends, adjusting the EGR valve from the fully open position to a fully closed position. 16. The method of claim 15 further comprising modulating the EGR valve between partially open positions for a second period when at least one of: exhaust pressure is greater than or equal to a predetermined pressure; and exhaust temperature is greater than or equal to a predetermined temperature. 17. The method of claim 16 further comprising determining the second period based on a volume of the EGR loop, a combustion tolerance of the engine, an ambient air temperature, an engine coolant temperature, and a soak time of the engine. 18. The method of claim 10 further comprising fully opening the exhaust throttle valve when a torque request is greater than a predetermined value. 19. A system comprising: an engine start circuit that determines when an engine is started based on at least one of an input from an ignition system and a speed of the engine; an exhaust throttle valve control circuit that selectively fully closes an exhaust throttle valve in an exhaust system of the engine when the engine is started to trap exhaust gas in the exhaust system; a catalyst temperature circuit that determines a temperature of a catalyst in the exhaust system, wherein the exhaust throttle valve control circuit fully closes the exhaust throttle valve when the engine is started and the catalyst temperature is less than a predetermined temperature, wherein the exhaust throttle valve control circuit fully opens the exhaust throttle valve when the catalyst temperature is greater than or equal to the predetermined temperature; and an exhaust gas recirculation (EGR) valve control circuit that opens an EGR valve when the engine is started to allow gas to flow from the exhaust system to an intake system of the engine through an EGR loop, wherein the EGR valve control circuit adjusts the EGR valve to a fully open position when the engine is started, maintains the EGR valve in the fully open position for a first period, and then adjusts the EGR valve from the fully open position to a fully closed position, and wherein the EGR valve control circuit determines the first period based on engine speed, engine load, exhaust pressure, exhaust temperature, and a volume of the EGR loop. 20. A method comprising: determining when an engine is started based on at least one of an input from an ignition system and a speed of the engine; selectively fully closing an exhaust throttle valve in an exhaust system of the engine when the engine is started to trap exhaust gas in the exhaust system; determining a temperature of a catalyst in the exhaust system; fully closing the exhaust throttle valve when the engine is started and the catalyst temperature is less than a pr