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Empirical constant Positive side electrolyte Negative side electrolyte Study of redox flow battery systems for residential applications where k is the conductivity of each electrolyte in mS cm-1, T is the temperature in oC and A, B, C and D are empirical constants determined by fitting experimental data to the model. The values of these constants for each electrolyte can be found on Table 3.2 [27]. Table 3.2 – Empirical constant values for the conductivity based state of charge equation [27]. A (mS cm-1 oC-1) B (mS cm-1) C (mS cm-1 oC-1) 1.8000 0.7050 93.5030 4.6713 172.0700 55.0420 2.6176 122.3700 D (mS cm-1) Despite being easy to use as on-line SoC measuring method, the measured conductivity is highly dependent on vanadium and sulphate ion concentrations and electrolyte imbalance will not be predicted by Equation (3.7) giving inaccurate values of state of charge [27, 62]. Chapter 3: Capacity fade and state of charge in VRFB 19PDF Image | Tubular Vanadium Air Redox‐flow battery
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