Systems and methods of engine exhaust air injection before and after catalytic converters

What is claimed is: 1. An engine system comprising: an engine configured to consume fuel and air to generate an exhaust gas stream; an exhaust system configured to channel the exhaust gas stream from the engine to a tailpipe; a catalytic converter disposed in the exhaust system; a first air injector disposed in the exhaust system upstream from the catalytic converter at a position closer to the engine than to the catalytic converter, the first air injector configured to selectively inject air into the exhaust system upstream from the catalytic converter; a second air injector disposed in the exhaust system downstream from the catalytic converter at a position adjacent to a downstream end of the catalytic converter, the second air injector configured to selectively inject air into the exhaust system downstream from the catalytic converter; and a controller operatively connected to the first and second air injectors, the controller configured to execute an air injection control configured to: inject air only via the first air injector, when a temperature of the exhaust gas stream upstream from the catalytic converter is below a first threshold temperature; inject air only via the second air injector when the temperature of the exhaust gas stream upstream from the catalytic converter is above a second threshold temperature that is different than the first threshold temperature; and inject air via the first air injector and the second air injector when the temperature of the exhaust gas stream upstream from the catalytic converter is between the first threshold temperature and the second threshold temperature. 2. The engine system of claim 1 , comprising: a mixer disposed in the exhaust system downstream from the catalytic converter, the mixer defining an oxidation chamber; and a mixing plate disposed in the oxidation chamber, wherein the mixing plate is configured to mix the exhaust gas stream as the exhaust gas stream passes through the oxidation chamber. 3. The engine system of claim 1 , comprising: a first temperature sensor disposed in the exhaust system upstream from the catalytic converter; and a second temperature sensor disposed in the exhaust system downstream from the catalytic converter, wherein the controller determines the temperature of the exhaust gas stream upstream from the catalytic converter based on a signal from the first temperature sensor, and wherein the controller is configured to diagnose a conversion performance of the catalytic converter by calculating a heat released from the catalytic converter based on a signal from the second temperature sensor. 4. The engine system of claim 1 , wherein the first air injector defines a first orifice having a first flow area and the second air injector defines a second orifice defining a second flow area, wherein the first flow area is less than the second flow area so as to (i) improve mixing and accuracy of the air injected via the first air injector, and (ii) optimize exhaust gas stream temperature reduction caused by the air injected via the second air injector, and wherein the air injection control further comprises maintaining a temperature of the catalytic converter below a maximum temperature limit via control of an air flow through at least one of the first air injector and the second air injector. 5. The engine system of claim 1 , wherein the controller is configured to execute the air injection control when the engine is operating at a rich air/fuel ratio. 6. The engine system of claim 1 , wherein the catalytic converter comprises a two-way catalytic converter, and wherein the controller is configured to execute the air injection control when the engine is operating at a rich air/fuel ratio such that a temperature in the catalytic converter is controlled so as to achieve a complete reaction of carbon monoxide and hydrocarbon. 7. The engine system of claim 1 , wherein the air injection control further comprises injecting air only via the first air injector when a speed at which the engine is operating is below a threshold engine speed. 8. The engine system of claim 7 , wherein the air injection control further comprises injecting air only via the first air injector when the engine is operating at a rich air/fuel ratio, the temperature of the exhaust gas stream upstream from the catalytic converter is below the first threshold temperature, and the engine is operating below the threshold engine speed. 9. A method comprising: operating an engine system including an engine configured to consume fuel and air so as to generate an exhaust gas stream; channeling the exhaust gas stream from the engine to a tailpipe via an exhaust system; arranging a catalytic converter in the exhaust system; arranging a first air injector in the exhaust system at a position upstream from the catalytic converter, the first air injector configured to selectively inject air into the exhaust system upstream from the catalytic converter; arranging a second air injector in the exhaust system at a position downstream from the catalytic converter, the second air injector configured to selectively inject air into the exhaust system downstream from the catalytic converter; and executing an air injection control via a controller operatively connected to the first air injector and the second air injector, the air injection control comprising: injecting air only via the first air injector when a temperature of the exhaust gas stream upstream from the catalytic converter is below a first threshold temperature; injecting air only via the second air injector when the temperature of the exhaust gas stream upstream from the catalytic converter is above a second threshold temperature that is different than the first threshold temperature; and injecting air via the first air injector and the second air injector when the temperature of the exhaust gas stream upstream from the catalytic converter is between the first threshold temperature and the second threshold temperature. 10. The method of claim 9 , comprising arranging a mixer in the exhaust system at a position downstream from the catalytic converter, the mixer defining an oxidation chamber; arranging a mixing plate in the oxidation chamber; and mixing the exhaust gas stream via the mixing plate as the exhaust gas stream passes through the oxidation chamber. 11. The method of claim 9 , comprising: coupling an air injection system with the first air injector and with the second air injector, the air injection system including a first branch pipe section leading to the first air injector, and a second branch pipe section leading to the second air injector; operatively connecting the controller to the first air injector via a first mass flow controller configured to control air flow through the first air injector; and operatively connecting the controller to the second air injector via a second mass flow controller configured to control air flow through the second air injector. 12. The method of claim 9 , wherein the air injection control further comprises maintaining the catalytic converter below a maximum temperature limit while raising a temperature of the exhaust gas stream downstream from the catalytic converter via control of an air flow through at least one of the first air injector and the second air injector. 13. The method of claim 9 , comprising executing the air injection control when the engine is operating at a rich air/fuel ratio. 14. The method of claim 9 , comprising: arranging the catalytic converter as a two-way catalytic converter; and executing, by the controller, the air injection control wh