Systems and methods for control of engine NOx emissions using liquid and dry reductant sources

What is claimed is: 1. A method, comprising: producing via an internal combustion engine an exhaust gas in an exhaust flow path including a selective catalytic reduction (SCR) catalyst and at least one of an oxidation catalyst or a diesel particulate filter; determining a temperature condition of the exhaust gas; and selectively providing one of a gaseous reductant released from a dry reductant storage source and a liquid reductant from a liquid reductant source to the exhaust flow path upstream of the SCR catalyst and downstream of the at least one of the oxidation catalyst or the diesel particulate filter in response to the temperature condition of the exhaust gas, wherein the gaseous reductant is provided when the temperature condition of the exhaust gas is in a low temperature operating range and the internal combustion engine is in a post-shutdown condition, and the liquid reductant is provided when the temperature condition of the exhaust gas is above the low temperature operating range and the internal combustion engine is in a pre-shutdown condition. 2. The method of claim 1 , wherein determining the temperature condition of the exhaust gas includes determining a temperature of the SCR catalyst. 3. The method of claim 1 , wherein the liquid reductant source includes a urea solution in a storage tank. 4. The method of claim 1 , wherein the gaseous reductant includes ammonia and the dry reductant source includes a solid storage media. 5. The method of claim 1 , wherein the exhaust flow path includes a diesel oxidation catalyst and a diesel particulate filter upstream of the SCR conversion catalyst. 6. The method of claim 1 , wherein an upper temperature of the low temperature operating range is a temperature at or above which liquid reductant is effectively hydrolyzed in the exhaust gas to prevent or reduce deposit formation in the exhaust system. 7. The method of claim 1 , further comprising: determining an engine shut-down condition and a reductant storage capacity of the SCR catalyst; and selectively providing one of the gaseous reductant released from the dry reductant storage source and the liquid reductant from the liquid reductant source to the exhaust flow path upstream of the SCR catalyst in response to the engine shutdown condition and determining the SCR catalyst has the reductant storage capacity. 8. A method, comprising: producing an exhaust gas in an exhaust flow path including a selective catalytic reduction (SCR) catalyst and at least one of an oxidation catalyst or a diesel particulate filter, wherein producing the exhaust gas includes operating an internal combustion engine; determining a temperature condition of the exhaust gas; determining an engine start-up condition; and selectively providing one of a gaseous reductant released from a dry reductant storage source and a liquid reductant from a liquid reductant source to the exhaust flow path upstream of the SCR catalyst and downstream of the at least one of the oxidation catalyst or the diesel particulate filter in response to the temperature condition of the exhaust gas; wherein providing the gaseous reductant released from the dry reductant source is in response to the engine start-up condition before operating the internal combustion engine to produce the exhaust gas. 9. The method of claim 8 , wherein providing the gaseous reductant from the dry reductant source includes heating the dry reductant source. 10. The method of claim 8 , wherein selectively providing one of the gaseous reductant and the liquid reductant includes determining that one of the dry reductant source and liquid reductant source is unavailable and selecting the other of the dry reductant source and the liquid reductant source. 11. A system, comprising: an internal combustion engine operable to produce an exhaust stream, the exhaust stream including an amount of NOx emitted into an exhaust flow path; a first reductant source that stores a NOx reductant in a solid storage media and a second reductant source that stores the NOx reductant in a liquid medium; a selective catalytic reduction (SCR) conversion catalyst and at least one of an oxidation catalyst or a diesel particulate filter in the exhaust flow path, wherein the first reductant source and the second reductant source are each connected to the exhaust flow path upstream of the SCR catalyst and downstream of the at least one of the oxidation catalyst or the diesel particulate filter to provide the NOx reductant to the SCR catalyst; and a controller connected to one or more sensors associated with the exhaust stream operable to indicate a temperature condition of the exhaust stream, wherein the controller is configured to control the first reductant source to dose the NOx reductant in a gaseous form from the solid storage media into the exhaust stream in response to a first temperature condition of the exhaust stream and the internal combustion engine being in a post-shutdown condition, and the controller is further configured to control the second reductant source to dose the NOx reductant from the liquid medium in a liquid form in response to a second temperature condition of the exhaust stream and the internal combustion engine being in a pre-shutdown condition. 12. The system of claim 11 , wherein the first reductant source doses the NOx reductant in the gaseous form in response to heating of the solid storage media. 13. The system of claim 11 , wherein the first reductant source is connected to the exhaust flow path with a supply line that includes a metering device to provide a measured flow rate of the gaseous reductant to the exhaust flow path. 14. The system of claim 11 , wherein the NOx reductant comprises ammonia, the solid storage media comprises metal ammine salts, and the liquid storage medium comprises a urea solution. 15. The system of claim 11 , wherein the exhaust flow path includes a diesel oxidation catalyst and a diesel particulate filter upstream from the SCR catalyst. 16. The system of claim 11 , wherein the first temperature condition is a low temperature operating range of the SCR catalyst and the second temperature condition is a normal operating temperature range of the SCR catalyst. 17. The system of claim 11 , wherein the controller is further configured to control the first reductant source to dose the NOx reductant in a gaseous form from the solid storage media in response the internal combustion engine being in a start-up condition before operating the internal combustion engine to produce the exhaust gas. 18. The system of claim 11 , wherein the first reductant source includes a replaceable cartridge containing the solid storage media mounted to a chassis of a vehicle powered by the internal combustion engine and the second reductant source includes a storage tank mounted to the chassis. 19. The system of claim 11 , wherein the second temperature condition is a temperature at or above which liquid reductant is effectively hydrolyzed in the exhaust gas to prevent or reduce deposit formation in the exhaust system. 20. An apparatus, comprising: an electronic controller structured to receive operating parameters from at least one sensor associated with an exhaust system that is connected with a first reductant source for storing a gaseous reductant in a solid storage media and a second reductant source for storing a liquid reductant in a liquid storage medium, wherein the controller includes: an exhaust system temperature condition module structured to determine a temperature cond