Marine propulsion and generator systems and methods

We claim: 1. A marine propulsion system for a marine vessel, comprising: an engine effectuating rotation of an output shaft; at least one battery configured to power a marine vessel load; an alternator having a rotor that is driven into rotation by the output shaft and that outputs a charge current to the at least one battery; a control system configured to operate the engine in a propulsion mode utilizing a set of propulsion parameters to rotate a propulsor to propel the marine vessel and a generator mode in which the engine is operated using a set of generator parameters to charge the at least one battery while the marine vessel remains stationary, wherein the control system is further configured to: receive a generator mode command to start the engine in the generator mode; and operate the engine in accordance with at least one of the set of generator parameters to charge the at least one battery while a shift system of the marine propulsion system is locked in a neutral position such that the propulsor cannot be engaged and the marine vessel remains stationary. 2. The marine propulsion system of claim 1 , wherein the marine propulsion system further comprises a propulsion spark timing map associated with the propulsion mode and a generator spark timing map associated with the generator mode, and wherein operating the engine in accordance with at least one of the set of generator parameters comprises operating the engine according to the generator spark timing map. 3. The marine propulsion system of claim 1 , wherein the marine propulsion system further comprises a propulsion fuel delivery map associated with the propulsion mode and a generator fuel delivery map associated with the generator mode, and wherein operating the engine in accordance with at least one of the set of generator parameters comprises operating the engine according to the generator fuel delivery map. 4. The marine propulsion system of claim 1 , wherein the engine comprises a plurality of cylinders, and wherein operating the engine in accordance with at least one of the set of generator parameters comprises a cylinder deactivation pattern for the plurality of cylinders. 5. The marine propulsion system of claim 4 , wherein the cylinder deactivation pattern comprises a number of deactivated cylinders. 6. The marine propulsion system of claim 4 , wherein the cylinder deactivation pattern comprises locations of deactivated cylinders. 7. The marine propulsion system of claim 1 , wherein the control system is further configured to calculate operational hours of the engine. 8. The marine propulsion system of claim 7 , wherein the operational hours of the engine comprises a sum of propulsion mode hours and discounted generator mode hours. 9. The marine propulsion system of claim 1 , wherein locking the shift system of the marine propulsion system in a neutral position comprises a mechanical locking device or an electronic locking device. 10. The marine propulsion system of claim 1 , wherein the marine propulsion system further comprises a propulsion fault manager associated with the propulsion mode and a generator fault manager associated with the generator mode, and wherein operating the engine in accordance with at least one of the set of generator parameters comprises operating the engine according to the generator fault manager. 11. The marine propulsion system of claim 10 , wherein the generator fault manager is configured to override a lever position fault response. 12. The marine propulsion system of claim 1 , wherein the marine propulsion system further comprises a propulsion cooling system mode associated with the propulsion mode and a generator cooling system mode associated with the generator mode, and wherein operating the engine in accordance with at least one of the set of generator parameters comprises operating the engine according to the generator cooling system mode. 13. The marine propulsion system of claim 12 , wherein the generator cooling system mode comprises deactivating at least one cooling passage within the engine. 14. The marine propulsion system of claim 12 , wherein the engine comprises an oil sump, and wherein the generator cooling system mode comprises activation of an oil heater in the oil sump. 15. The marine propulsion system of claim 1 , further comprising a user input device that is communicably coupled to the control system, wherein the command to start the engine in the generator mode is based on a user selection received at the user input device. 16. The marine propulsion system of claim 1 , wherein the command to start the engine in the generator mode is automatically generated based on an electrical power demand from the marine vessel load. 17. The marine propulsion system of claim 1 , wherein the command to start the engine in the generator mode is automatically generated based on a low battery power condition in the at least one battery. 18. The system of claim 1 , wherein the set of generator parameters is configured to provide different spark timing control, fuel delivery control, cylinder activation pattern, engine RPM control, and/or cooling system control than the set of propulsion parameters. 19. A method of operating a marine propulsion system for a marine vessel, comprising: providing a control system configured to operate an engine of the marine vessel in a propulsion mode utilizing a set of propulsion parameters to rotate a propulsor to propel the marine vessel and a generator mode in which the engine is operated using a set of generator parameters to charge at least one battery while the marine vessel remains stationary; receiving a generator mode command to start the engine in the generator mode; and operating the engine in accordance with at least one of the set of generator parameters to charge the at least one battery while a shift system of the marine propulsion system is locked in a neutral position such that the propulsor cannot be engaged and the marine vessel remains stationary. 20. The method of claim 19 , wherein the set of generator parameters comprises at least one of a spark timing map, a fuel delivery map, and an engine cylinder deactivation pattern. 21. The method of claim 19 , further comprising: calculating operational hours of the engine, wherein the operational hours of the engine comprises a sum of propulsion mode hours and discounted generator mode hours. 22. The method of claim 19 , wherein the set of generator parameters is configured to provide different spark timing control, fuel delivery control, cylinder activation pattern, engine RPM control, and/or cooling system control than the set of propulsion parameters.