Cooling sysytem mechanical pump diagnosis

What is claimed is: 1. A method of diagnosing a mechanical coolant pump in an automobile equipped with cooling system having a mechanical coolant pump and an electric coolant pump, the mechanical coolant pump and the electric coolant pump each feed into a diverter valve that allows flow from only one of the mechanical coolant pump and the electric coolant pump to pass therethrough, the method comprising: using a controller having a processor for executing control Iodic stored in a memory and detecting when an engine of the automobile has been started; dis-engaging the electric coolant pump; switching the diverter valve to allow flow from the mechanical coolant pump; engaging the mechanical coolant pump; and verifying the mechanical coolant pump is operating properly by: verifying that the diverter valve is switched to allow flow from the mechanical coolant pump by receiving feedback from a sensor to identify the position of the diverter valve; and verifying flow of coolant through the diverter valve after the mechanical coolant pump has been engaged by: measuring the temperature of the coolant that has been diverted around the engine immediately downstream of the diverter valve: measuring the temperature of the coolant upstream of a radiator within the automobile; and comparing the temperature of the coolant that has been diverted around the engine immediately downstream of the diverter valve to the temperature of the coolant upstream of the radiator; wherein the diverter valve is biased to allow flow from the electric coolant pump and switching the diverter valve to allow flow from the mechanical coolant pump prior to engaging the mechanical coolant pump includes actuating an actuator to overcome the bias within the diverter valve to switch the diverter valve to allow flow from the mechanical coolant pump, further wherein the sensor is a magnetic contact sensor that magnetically engages the diverter valve when the diverter valve is biased to allow flow from the electric coolant pump, further wherein receiving feedback from a contact sensor to identify the position of the diverter valve includes receiving feedback from the magnetic sensor identifying if the magnetic sensor is magnetically engaged with the diverter valve. 2. The method of claim 1 , wherein detecting when an engine of the automobile has been started includes detecting when an engine of the automobile has been selectively started by an operator of the automobile and ignoring instances where the engine has been automatically started after a start/stop event. 3. The method of claim 1 , wherein the switching valve is a rotary valve and verifying that the diverter valve is switched to allow flow from the mechanical coolant pump further includes receiving feedback from a sensor to identify the rotational position of the rotary valve. 4. The method of claim 1 , further including blocking coolant flow through the engine with a selectable valve and diverting coolant flow around the engine prior to verifying flow of coolant through the diverter valve, and measuring the temperature of the engine and allowing coolant to flow through the engine after verifying flow of coolant through the diverter valve and after the engine has reached a pre-determined operating temperature. 5. The method of claim 4 , wherein blocking coolant flow through the engine and diverting coolant flow around the engine further includes diverting coolant flow around the engine through an exhaust gas heat recovery unit. 6. The method of claim 5 , wherein verifying flow of coolant through the diverter valve further includes: measuring the temperature of the coolant immediately downstream of the exhaust gas heat recovery unit; measuring the temperature of the coolant upstream of a radiator within the automobile; and comparing the temperature of the coolant immediately downstream of the exhaust gas heat recovery unit to the temperature of the coolant upstream of the radiator. 7. The method of claim 6 , further including: dis-engaging the mechanical coolant pump, switching the diverter valve to allow flow from the electric coolant pump, and engaging the electric coolant pump, when flow of coolant through the diverter valve is verified and when the temperature of the coolant immediately downstream of the exhaust gas heat recovery unit is approximately equal to the temperature of the coolant immediately upstream of the radiator, and dis-engaging the electric coolant pump, switching the diverter valve to allow flow from the mechanical coolant pump, and engaging the mechanical coolant pump, when coolant flow exceeding the capabilities of the electrical cooling pump is required. 8. The method of claim 7 , further including: dis-engaging the mechanical coolant pump; switching the diverter valve to allow flow from the electric coolant pump; engaging the electric coolant pump; and limiting operation of the automobile, when one of flow of coolant through the diverter valve is not verified and when the temperature of the coolant immediately downstream of the exhaust gas heat recovery is not approximately equal to the temperature of the coolant upstream of the radiator. 9. The method of claim 1 , further including: dis-engaging the mechanical coolant pump, switching the diverter valve to allow flow from the electric coolant pump, and engaging the electric coolant pump, when flow of coolant through the diverter valve is verified and the temperature of the coolant that has been diverted around the engine immediately downstream of the diverter valve is approximately equal to the temperature of the coolant upstream of the radiator, and dis-engaging the electric coolant pump, switching the diverter valve to allow flow from the mechanical coolant pump, and engaging the mechanical coolant pump, when coolant flow exceeding the capabilities of the electrical cooling pump is required. 10. The method of claim 9 , further including: dis-engaging the mechanical coolant pump; switching the diverter valve to allow flow from the electric coolant pump; engaging the electric coolant pump; and limiting operation of the automobile, when one of flow of coolant through the diverter valve is not verified and when the temperature of the coolant that has been diverted around the engine immediately downstream of the diverter valve is not approximately equal to the temperature of the coolant upstream of the radiator. 11. A method of diagnosing a mechanical coolant pump in an automobile equipped with cooling system having a mechanical coolant pump and an electric coolant pump that each feed into a diverter valve adapted to allow flow from only one of the mechanical coolant pump and the electric coolant pump to pass therethrough and biased to allow flow from the electric coolant pump, comprising: detecting when an engine of the automobile has been selectively started by an operator of the automobile; blocking coolant flow through the engine and diverting coolant flow through an exhaust gas heat recovery unit; dis-engaging the electric coolant pump; actuating a solenoid to overcome the bias within the diverter valve and switching the diverter valve to allow flow from the mechanical coolant pump; engaging the mechanical coolant pump; verifying that the diverter valve is switched to allow flow from the mechanical coolant pump by receiving feedback from a contact sensor to identify the rotational position of the diverter valve; verifying flow of coolant through the diverter valve by measuring the temperature of the coolant immediately downstream of the exhaust gas heat recovery unit, measuring the temperature of the coolant upstream of a radiator within the automobile, and comparin