Method and system for water drainage in fuel system

The invention claimed is: 1. A vehicle system, comprising: a fuel tank; a fuel-water separator in fluid communication with the fuel tank; a separator water sensor operably disposed in the fuel-water separator for detecting a presence of water in the fuel-water separator; an engine in fluid communication with the fuel-water separator; a purge tank in fluid communication with the fuel tank; a duct coupled between the fuel-water separator and the purge tank, the purge tank receiving liquid from the duct via an outlet at a bottom of the purge tank, the purge tank separate from the fuel tank; a fuel property sensor operably disposed in the purge tank for detecting a presence of water at a top of the purge tank; a purge line in fluid communication with the purge tank and the fuel tank for removing fuel from the purge tank; a fuel drain-back prevention valve in the purge line; and a controller in communication with the separator water sensor, the fuel property sensor, and the engine and configured to: detect if a water level exceeds a threshold level in the purge tank; and detect if a water level exceeds a threshold level in the fuel-water separator; and wherein the fuel removed from the purge tank via the purge line is supplied to the fuel tank, the fuel property sensor operably disposed in the purge tank is a first fuel property sensor, and further comprising a second fuel property sensor operably disposed in the fuel tank and configured to detect a concentration of water mixed with the fuel in the fuel tank. 2. The vehicle system of claim 1 , wherein the controller is further configured to output a notification to an operator of the vehicle system if the water level exceeds the threshold level in the purge tank. 3. The vehicle system of claim 1 , wherein the controller is further configured to stop the engine in response to the water level exceeding the threshold level in the fuel-water separator. 4. The vehicle system of claim 1 , wherein the fuel property sensor measures kinematic viscosity, dielectric constant, and temperature and determines the presence of water in the purge tank at the fuel property sensor based on one or more of the kinematic viscosity, dielectric constant, and temperature. 5. The vehicle system of claim 4 , wherein the controller is further configured to adjust one or more engine fueling parameters based on the measured kinematic viscosity, dielectric constant, and temperature. 6. The vehicle system of claim 1 , wherein the controller is configured to: output a notification to an operator of the vehicle system responsive to feedback from the first fuel property sensor inducing a level of water in the purge tank exceeds a first threshold level; adjust one or more engine operating parameters based on output from the second fuel property sensor; and stop the engine responsive to feedback from the separator water sensor indicating a level of water in the fuel-water separator exceeds a second threshold level. 7. The vehicle system of claim 6 , wherein one or more engine operating parameters comprise one or more of fuel flow rate, fuel injection amount, fuel injection timing, throttle setting, and engine speed.