System and method for determining state of charge for an electric energy storage device

1 . A method for determining state of charge of an electric energy storage device, comprising: adjusting operation of an electric energy storage device via a controller according to a state of charge of the electric energy storage device, the state of charge generated via a plating efficiency of the electric energy storage device and a current flow of the electric energy storage device. 2 . The method of claim 1 , where adjusting operation of the electric energy storage device includes performing a cleansing cycle on the electric energy storage device, and where generating the state of charge includes multiplying the plating efficiency and the current flow. 3 . The method of claim 2 , where performing the cleansing cycle includes discharging the electric energy storage device and mixing negative electrolyte with positive electrolyte. 4 . The method of claim 1 , where adjusting operation of the electrical energy storage device includes communicating the state of charge of the electrical energy storage device to a controller that is external from the electrical energy storage device. 5 . The method of claim 1 , where the state of charge of the electrical energy storage device that is further generated via subtracting a shunting current of the electrical energy storage device from a result of multiplying the plating efficiency of the electric energy storage device and the current flow of the electric energy storage device. 6 . The method of claim 1 , where the plating efficiency is estimated via a pH level of an electrolyte of the electrical energy storage device. 7 . The method of claim 1 , where the electrical energy storage device is an iron flow battery. 8 . The method of claim 1 , where the state of charge generated via multiplying a plating efficiency of the electric energy storage device and the current flow of the electric energy storage device is a state of charge for a negative electrolyte of the electric energy storage device. 9 . A method for determining state of charge of an electric energy storage device, comprising: adjusting operation of an electric energy storage device via a controller according to a result of a comparison of a difference between a first state of charge of the electric energy storage device that is generated via a plating efficiency of the electric energy storage device and a third state of charge of the electric energy storage device that is generated via an open circuit voltage of the electric energy storage device. 10 . The method of claim 9 , further comprising generating a second state of charge of the electric energy storage device that is generated without the plating efficiency. 11 . The method of claim 10 , where the second state of charge is generated via subtracting a shunt current from a current flow of the electric energy storage device. 12 . The method of claim 11 , further comprising generating a charging state of charge during charging of the electric energy storage device via selecting a greater of the first state of charge and the second state of charge. 13 . The method of claim 12 , further comprising generating a discharging state of charge during discharging of the electric energy storage device via selecting a lesser of the first state of charge and the second state of charge. 14 . The method of claim 9 , further comprising generating a correction factor and applying the correction factor to the first state of charge when a result of the comparison is a difference that is greater than a predetermined percentage of the third state of charge. 15 . An electric power system, comprising: an iron flow electric energy storage cell stack including a positive electrode and a negative electrode, the positive electrode in physical communication with a first electrolyte and the negative electrode in physical communication with a second electrolyte; and a controller including executable instructions stored in non-transitory memory to generate a first state of charge via a plating efficiency and to generate a second state of charge from other than the plating efficiency, and instructions to generate a charging state of charge via selecting a greater of the first state of charge and the second state of charge during charging of the iron flow electric energy storage cell. 16 . The electric power system of claim 15 , further comprising additional instructions to generate a discharging state of charge via selecting a lesser of the first state of charge and the second state of charge during discharging of the iron flow electric energy storage cell. 17 . The electric power system of claim 16 , further comprising additional instructions to multiply the plating efficiency and current of the iron flow electric energy storage cell stack. 18 . The electric power system of claim 15 , further comprising additional instructions to generate a correction factor from the charging state of charge and an open circuit state of charge estimate. 19 . The electric power system of claim 15 , further comprising additional instructions to multiply the correction factor and the charging state of charge. 20 . The electric power system of claim 15 , where the iron flow electric energy storage cell stack includes a membrane that physically separates and isolates the first electrolyte from the second electrolyte.