Engine and coolant system control systems and methods

What is claimed is: 1. A coolant control system of a vehicle comprising: a coolant pump that pumps coolant to a second radiator that is different than a first radiator that receives coolant from an engine of the vehicle; a diesel exhaust fluid (DEF) injector that injects a DEF into an exhaust system of the vehicle and that receives coolant output from the second radiator; a fuel heat exchanger that receives fuel flowing from a fuel rail to a fuel tank of the vehicle, that receives coolant output from the DEF injector, and that transfers heat between coolant flowing through the fuel heat exchanger and fuel flowing through the fuel heat exchanger, wherein the coolant pump receives coolant output from the fuel heat exchanger; and an engine control module (ECM) configured to: determine a temperature of the DEF injector; determine a vaporized condition of the coolant based on the DEF injector temperature; and control the coolant pump based on the determined vaporized condition of the coolant. 2. The coolant control system of claim 1 , wherein the ECM is configured to determine a first temperature of the DEF injector, determine a second temperature of the DEF injector, determine an elapsed time between the determination of the first temperature of the DEF injector and the determination of the second temperature of the DEF injector, and determine the vaporized condition of the coolant if the first temperature of the DEF injector and the second temperature of the DEF injector each exceed a coolant vaporization temperature threshold and the elapsed time exceeds a coolant vaporization time threshold. 3. The coolant control system of claim 1 , wherein the ECM is configured to determine an average temperature of the DEF injector over a period of time at least as long as a coolant vaporization time threshold, and determine the vaporized condition of the coolant if the average temperature of the DEF injector exceeds a coolant vaporization temperature threshold. 4. The coolant control system of claim 1 , wherein the ECM is configured to determine a duty cycle of the coolant pump and control a duty cycle of the coolant pump based on the determined DEF injector temperature. 5. The coolant control system of claim 1 , wherein the ECM is further configured to determine a duty cycle of the coolant pump and increase the coolant pump duty cycle in response to a determined DEF injector temperature above a coolant vaporization temperature threshold. 6. A coolant control system of a vehicle comprising: a coolant pump that pumps coolant to a second radiator that is different than a first radiator that receives coolant from an engine of the vehicle; a diesel exhaust fluid (DEF) injector that injects a DEF into an exhaust system of the vehicle and that receives coolant output from the second radiator; a fuel heat exchanger that receives fuel flowing from a fuel rail to a fuel tank of the vehicle, that receives coolant output from the DEF injector, and that transfers heat between coolant flowing through the fuel heat exchanger and fuel flowing through the fuel heat exchanger, wherein the coolant pump receives coolant output from the fuel heat exchanger; and an engine control module (ECM) configured to: determine a temperature of the DEF injector; control a duty cycle of the coolant pump; determine a vaporized condition of the coolant based on the DEF injector temperature; and in response to determining the vaporized condition of the coolant, oscillate the duty cycle of the coolant pump. 7. The coolant control system of claim 6 , wherein oscillating the duty cycle of the coolant pump mitigates the vaporized condition of the coolant. 8. The coolant control system of claim 6 , wherein oscillating the duty cycle of the coolant pump comprises oscillating between a maximum duty cycle and a minimum duty cycle of the coolant pump. 9. The coolant control system of claim 6 , wherein oscillating the duty cycle of the coolant pump comprises oscillating between a relatively high duty cycle and a relatively low duty cycle of the coolant pump, and dwelling at each relatively high duty cycle and a relatively low duty cycle for a respective calibratable dwell time. 10. The coolant control system of claim 6 , wherein oscillating the duty cycle of the coolant pump comprises oscillating between a relatively high duty cycle and a relatively low duty cycle of the coolant pump for a calibratable number of oscillating cycles. 11. The coolant control system of claim 6 , wherein oscillating the duty cycle of the coolant pump comprises oscillating between a relatively high duty cycle and a relatively low duty cycle of the coolant pump at a calibratable frequency. 12. The coolant control system of claim 6 , wherein the ECM is further configured to, after oscillating the duty cycle of the coolant pump, determine a post-oscillating temperature of the DEF injector and assess a presence or absence of the vaporized condition of the coolant based on the post-oscillating temperature of the DEF injector. 13. A coolant control system of a vehicle comprising: a coolant pump that pumps coolant to a second radiator that is different than a first radiator that receives coolant from an engine of the vehicle; a diesel exhaust fluid (DEF) injector that injects a DEF into an exhaust system of the vehicle and that receives coolant output from the second radiator; a fuel heat exchanger that receives fuel flowing from a fuel rail to a fuel tank of the vehicle, that receives coolant output from the DEF injector, and that transfers heat between coolant flowing through the fuel heat exchanger and fuel flowing through the fuel heat exchanger, wherein the coolant pump receives coolant output from the fuel heat exchanger; and an engine control module (ECM) configured to: determine a temperature of the DEF injector; control a duty cycle of the coolant pump; iteratively: determine a vaporized condition of the coolant based on the DEF injector temperature, and in response to determining the vaporized condition of the coolant, implement a vapor purge by oscillating the duty cycle of the coolant pump; and identify a low-coolant condition of the coolant control system based on the vapor purges implemented during a time period. 14. The coolant control system of claim 13 , wherein the ECM is configured to identify the low-coolant condition of the coolant control system if a number of vapor purges implemented within the time period exceed a vapor purge count. 15. The coolant control system of claim 13 , wherein the ECM is configured to identify the low-coolant condition of the coolant control system if a collective duration of one or more vapor purges implemented within the time period exceeds a vapor purge duration threshold. 16. The coolant control system of claim 13 , wherein the ECM is further configured to engage a low-coolant alarm appurtenant to the vehicle in response to identifying the low-coolant condition of the coolant control system.