System for redox shuttle solution monitoring

What is claimed is: 1. An electrodialysis apparatus, comprising: a first reservoir comprising an input and an output, wherein concentration of salt dissolved in solvent in the first reservoir is reduced below a threshold concentration during an operation mode; a second reservoir comprising an input and an output, wherein concentration of salt dissolved in the solvent in the second reservoir increases in concentration during the operation mode; a first electrode in contact with a first solution of a first redox-active electrolyte material having at least one property having a first value, wherein the first electrode is configured to have a reversible redox reaction with the first redox-active electrolyte material; a second electrode in contact with a second solution of a second redox-active electrolyte material having at least one property having a second value, wherein the second electrode is configured to have a reversible redox reaction with the second redox-active electrolyte material; a first type of membrane disposed between the first and second reservoirs; a second type of membrane, different from the first type, disposed between the first electrode and the first reservoir and disposed between the second electrode and the second reservoir; a color measuring device coupled to at least one of the first solution and the second solution for detecting a color value of the first solution or the second solution; and a control system configured to modify the value of the at least one property of the first solution or the second solution in response to the color measuring device detecting a color value of the first solution or the second solution exceeding a threshold color value, wherein the at least one property of the first solution or the second solution is state of charge (SOC). 2. The electrodialysis apparatus of claim 1 , further comprising an electrical energy source coupled to the first and second electrodes and the control system is coupled to the electrical energy source and configured to control the energy source to apply a pulse at a predetermined potential between the first and second electrodes in response to the color measuring device detecting a color value of the first solution or the second solution exceeding a threshold color value to modify the at least one property. 3. The electrodialysis apparatus of claim 1 , wherein at least one of the first solution and the second solution is one or both of ferrocyanide and ferricyanide. 4. The electrodialysis apparatus of claim 1 , wherein at least one of the first solution and the second solution is [BTMAP-Fc] 2+/3+ . 5. The electrodialysis apparatus of claim 1 , wherein the color measuring device is a colorimeter. 6. The electrodialysis apparatus of claim 1 , wherein the color measuring device is a spectrophotometer. 7. The electrodialysis apparatus of claim 1 , wherein the threshold color value indicates a pH below 7. 8. The electrodialysis apparatus of claim 1 , wherein the threshold color value indicates a pH above 9. 9. The electrodialysis apparatus of claim 1 , wherein the first solution and the second solution form a single redox shuttle cycled between the first and second electrodes.