Real-time control of reductant droplet spray momentum and in-exhaust spray distribution

What is claimed is: 1. A system comprising: a reductant injection system for injecting reductant into an exhaust gas based on an injection parameter or a supply parameter; and a controller configured to: access a current vehicle condition parameter, wherein the current vehicle condition parameter comprises at least one of a vehicle speed, a vehicle tire pressure, a vehicle inclination angle, a vehicle drive gear selection, a vehicle mass, a vehicle weight, a vehicle trailer weight, or a vehicle air line pressure, determine one or more control parameters based on a control model and as a function of the accessed current vehicle condition parameter, and modify a value of the injection parameter or the supply parameter based on the one or more control parameters to control a reductant spray momentum, a reductant droplet momentum, or a reductant momentum vector from the reductant injection system so as to provide a target spray droplet distribution or a target spray distribution. 2. The system of claim 1 , wherein the control model is based on a Latin hypercube study performed to compute parameters of an empirical model for an exhaust gas system platform using a range of values for exhaust gas properties and reductant properties. 3. The system of claim 1 , wherein: the controller is further configured to access at least one of a current exhaust gas condition parameter, a current engine condition parameter, or a current reductant condition parameter; and the one or more control parameters are determined further based on the at least one of the current exhaust gas condition parameter, the current engine condition parameter, or the current reductant condition parameter. 4. The system of claim 3 , wherein: the controller is configured to access the current reductant condition parameter; the one or more control parameters are determined based on the current reductant condition parameter; and the current reductant condition parameter comprises at least one of a reductant temperature, reductant momentum based on an injection supply pressure, a reductant density, a reductant air supply pressure, a reductant air supply flow rate, or a reductant spray cone angle. 5. The system of claim 3 , wherein: the controller is configured to access the current exhaust gas condition parameter; the one or more control parameters are determined based on the current exhaust gas condition parameter; and the current exhaust gas condition parameter comprises at least one of an exhaust gas pressure, an exhaust gas density, an exhaust gas temperature, an exhaust gas flow velocity, an exhaust gas mass flow, or an exhaust gas vorticity. 6. The system of claim 5 , wherein: the controller is configured to access the current reductant condition parameter, the one or more control parameters are determined based on the current reductant condition parameter, and the current reductant condition parameter comprises at least one of a reductant temperature, reductant momentum based on an injection supply pressure, a reductant density, a reductant air supply pressure, a reductant air supply flow rate, or a reductant spray cone angle. 7. The system of claim 3 , wherein: the controller is configured to access the current engine condition parameter, the one or more control parameters are determined based on the current engine condition parameter, and the current engine condition parameter comprises at least one of an engine fuel flow rate, an engine air flow rate, an engine boost pressure, an engine intake pressure, an engine load, an engine rotational speed, an engine cylinder temperature, an engine cylinder pressure, or an engine fuel pressure. 8. The system of claim 1 , wherein the control model is an empirical model. 9. The system of claim 1 , wherein the control model is a physics based model. 10. The system of claim 9 , wherein parameters of the physics based model are obtained by performing a Latin hypercube study for an exhaust gas system platform using a range of values for exhaust gas properties and reductant properties. 11. The system of claim 1 , wherein the controller uses at least the current vehicle condition parameter to determine the reductant spray momentum and modifies the value of the injection parameter to achieve the target spray droplet distribution or the target spray distribution for the current vehicle condition parameter. 12. A method comprising: accessing a current engine condition parameter, wherein the current engine condition parameter comprises at least one of an engine fuel flow rate, an engine air flow rate, an engine boost pressure, an engine intake pressure, an engine load, an engine rotational speed, an engine cylinder temperature, an engine cylinder pressure, or an engine fuel pressure; determining one or more control parameters based on a control model and as a function of the accessed current engine condition parameter; modifying a value of an injection parameter or a supply parameter based on the one or more control parameters to control a reductant spray momentum, a reductant droplet momentum, or a reductant momentum vector from a reductant injection system so as to provide a target spray droplet distribution or a target spray distribution; and commanding the reductant injection system to inject reductant into an exhaust gas based on the injection parameter or a reductant supply system to supply reductant to the reductant injection system based on the supply parameter. 13. The method of claim 12 , wherein at least the current engine condition parameter is used to determine the reductant spray momentum and to modify the injection parameter to achieve the target spray droplet distribution or the target spray distribution for the current engine condition parameter. 14. The method of claim 12 , further comprising accessing at least one of a current vehicle condition parameter, a current exhaust gas condition parameter, or a current reductant condition parameter; wherein the one or more control parameters are determined further based on the at least one of the current vehicle condition parameter, the current exhaust gas condition parameter, or the current reductant condition parameter. 15. The method of claim 14 , further comprising accessing the current reductant condition parameter; wherein the one or more control parameters are determined based on the current reductant condition parameter, and wherein the current reductant condition parameter comprises at least one of a reductant temperature, reductant momentum based on an injection supply pressure, a reductant density, a reductant air supply pressure, a reductant air supply flow rate, or a reductant spray cone angle. 16. The method of claim 14 , further comprising accessing the current vehicle condition parameter; wherein the one or more control parameters are determined based on the current vehicle condition parameter, and the current vehicle condition parameter comprises at least one of a vehicle speed, a vehicle tire pressure, a vehicle inclination angle, a vehicle drive gear selection, a vehicle mass, a vehicle weight, a vehicle trailer weight, or a vehicle air line pressure. 17. The method of claim 16 , further comprising accessing the current reductant condition parameter; wherein the one or more control parameters are determined based on the current reductant condition parameter, and wherein the current reductant condition parameter comprises at least one of a reductant temperature, reductant momentum based on an injection supply pressure, a reductant density, a reductant air supply pressure, a