Desulfation of lead acid batteries using electrolyte agitator

What is claimed is: 1. A battery maintenance system comprising: an enclosure including a plurality of walls; a plurality of battery cells located in the enclosure and surrounded by electrolyte; and an electrolyte agitator attached to an outer surface of at least one of the walls of the enclosure, the electrolyte agitator configured to selectively agitate the electrolyte. 2. The battery maintenance system of claim 1 , wherein the plurality of battery cells include lead acid battery cells and wherein the electrolyte includes sulfuric acid. 3. The battery maintenance system of claim 1 , wherein the electrolyte agitator includes a piezoelectric device. 4. The battery maintenance system of claim 1 , wherein the electrolyte agitator includes a piezoelectric cantilever. 5. The battery maintenance system of claim 1 , further comprising an energy dispersion material located between the electrolyte agitator and the electrolyte. 6. The battery maintenance system of claim 1 , further comprising: a feedback device attached to the enclosure; and a controller configured to control the electrolyte agitator in response to feedback from the feedback device. 7. The battery maintenance system of claim 6 , wherein the electrolyte agitator includes a first piezoelectric device and the feedback device includes a second piezoelectric device. 8. The battery maintenance system of claim 1 , further comprising a flyback circuit to selectively provide power to the electrolyte agitator. 9. A vehicle battery system for a vehicle, the vehicle battery system comprising: the battery maintenance system of claim 1 ; and a controller configured to determine when the vehicle has not been operating for a predetermined period and to cause the electrolyte agitator to agitate the electrolyte after the predetermined period. 10. The vehicle battery system of claim 9 , wherein the controller is further configured to cause voltage pulses to be applied to the plurality of battery cells while the vehicle is not operating. 11. The vehicle battery system of claim 9 , wherein the controller is configured to prevent the electrolyte agitator from agitating the electrolyte after the predetermined period if a battery state of charge is less than a predetermined state of charge. 12. The vehicle battery system of claim 9 , wherein the controller is configured to cause the electrolyte agitator to agitate the electrolyte within a predetermined period prior to starting the vehicle. 13. A vehicle battery system for a vehicle, the vehicle battery system comprising: an enclosure including a plurality of walls; a plurality of battery cells located in the enclosure and surrounded by electrolyte; an electrolyte agitator,- attached to an outer surface of at least one of the walls of the enclosure, the electrolyte agitator configured to selectively agitate the electrolyte; a drive circuit configured to selectively drive the electrolyte agitator; and a controller configured to determine when the vehicle has not been operating for a predetermined period and to selectively cause the drive circuit to drive the electrolyte agitator after the predetermined period. 14. The vehicle battery system of claim 13 , wherein the controller is configured to prevent the electrolyte agitator from agitating the electrolyte after the predetermined period if a battery state of charge is less than a predetermined state of charge. 15. The vehicle battery system of claim 13 , wherein the controller is configured to cause the electrolyte agitator to agitate the electrolyte within a predetermined period prior to starting the vehicle. 16. A battery maintenance system comprising: an enclosure including a plurality of walls; a plurality of battery cells located in the enclosure and surrounded by electrolyte; a piezoelectric device arranged in at least one of the plurality of walls separating adjacent ones of the plurality of battery cells, the piezoelectric device configured to selectively agitate the electrolyte; a flyback circuit configured to selectively drive the piezoelectric device; and a controller configured to selectively cause the flyback circuit to output power to the piezoelectric device. 17. The battery maintenance system of claim 16 , wherein: the plurality of battery cells include lead acid battery cells; the electrolyte includes sulfuric acid; and the piezoelectric device includes a piezoelectric cantilever. 18. The battery maintenance system of claim 16 , further comprising an energy dispersion material located between the piezoelectric device and the electrolyte. 19. The vehicle battery system of claim 13 , further comprising an energy dispersion material located between the electrolyte agitator and the electrolyte. 20. The vehicle battery system of claim 13 , wherein: the electrolyte agitator includes a first piezoelectric device; the vehicle battery system further comprises a feedback device attached to the enclosure; the feedback device includes a second piezoelectric attached to the enclosure; and the controller is configured to selectively cause the drive circuit to drive the electrolyte agitator in response to feedback from the feedback device.