Estimation of state-of-charge for zinc-bromine flow batteries by in situ ocv analysis

What is claimed is: 1 . An apparatus for estimating a state-of-charge of a zinc flow battery including a unit cell having a cathode module and an anode module, a cathode electrolyte tank connected to the cathode module of the unit cell and storing a cathode electrolyte containing zinc ions, and an anode electrolyte tank connected to the anode module of the unit cell and storing an anode electrolyte containing zinc ions, the apparatus comprising: measuring electrodes installed in at least one of the cathode electrolyte tank and the anode electrolyte tank and including a working electrode, a reference electrode, and a counter electrode; and an estimator supplying a constant current to the measuring electrodes for a predetermined time before measurement so that zinc is electro-deposited on the working electrode through the zinc ions contained in the cathode electrolyte or the anode electrolyte, and estimating the state-of-charge by measuring an open-circuit voltage (OCV) of the working electrode with respect to the reference electrode. 2 . The apparatus of claim 1 , wherein the working electrode is made of a material including carbon, gold, platinum, or iridium. 3 . The apparatus of claim 1 , wherein the estimator applies a constant current of 30 to 40 mA/cm 2 to the measuring electrodes for 400 to 800 seconds before measurement so that the zinc is electro-deposited on the working electrode through the zinc ions. 4 . The apparatus of claim 1 , wherein the estimator calculates a concentration of zinc ions through an equation, given below, from the measured OCV, and estimating the state-of-charge through the calculated concentration of zinc ions. E=E 0′ +RT/ n F I n (C Zn2+ )  [Equation] Here, E is the measured OCV, E0′ is a formal potential, R is a gas constant, T is an absolute temperature, n is a unit reaction electron number, F is a Faraday constant, and C Zn2+ is the concentration of zinc ions (Zn 2+ ). 5 . The apparatus of claim 1 , wherein the measuring electrodes are installed in each of the cathode electrolyte tank and the anode electrolyte tank. 6 . The apparatus of claim 5 , wherein the estimator estimates a final state-of-charge through an average of the state-of-charge estimated in the cathode electrolyte tank and the state-of-charge estimated in the anode electrolyte tank. 7 . A method for estimating a state-of-charge of a zinc flow battery by using an apparatus for estimating the state-of-charge of the zinc flow battery, wherein the zinc flow battery includes a unit cell having a cathode module and an anode module, a cathode electrolyte tank connected to the cathode module of the unit cell and storing a cathode electrolyte containing zinc ions, and an anode electrolyte tank connected to the anode module of the unit cell and storing an anode electrolyte containing zinc ions, and wherein the apparatus comprises measuring electrodes installed in at least one of the cathode electrolyte tank and the anode electrolyte tank and including a working electrode, a reference electrode, and a counter electrode, and an estimator supplying a constant current to the measuring electrodes for a predetermined time before measurement so that zinc is electro-deposited on the working electrode through the zinc ions contained in the cathode electrolyte or the anode electrolyte, and estimating the state-of-charge by measuring an open-circuit voltage (OCV) of the working electrode with respect to the reference electrode.