Method of enhancing efficiency of carbon felts in flow battery through sonication

What is claimed is: 1. A method of enhancing efficiency of carbon felts in a flow battery through sonication, comprising steps of: (a) immersing a plurality of carbon felts in a mixed acid solution; processing with heating and sonication; and, then, washing said carbon felts with ultrapure water and drying said carbon felts; (b) obtaining said carbon felts after being processed with said sonication to be made into a positive electrode and a negative electrode; and assembling a cell stack with said positive electrode and said negative electrode; (c) filling an electrolyte into said cell stack by two pumps, said electrolyte comprising 1 mole (M) to 3M of vanadyl sulfate and an aqueous solution of 1M to 5M of inorganic acid; under a flow rate controlled between 20 and 100 milliliters per minute (mL/min), flowing said electrolyte through an anode inlet and a cathode inlet to be uniformly in contact with said positive electrode and said negative electrode which are made of said carbon felts; flowing said electrolyte through an anode outlet and a cathode outlet and said anode inlet and said cathode inlet to be collected in a positive electrolyte container and a negative electrolyte container; recycling said electrolyte to be pumped into said cell stack again through said anode inlet and said cathode inlet until air in said cell stack is completely expelled; and (d) connecting an external power supply to said positive electrode and said negative electrode; conducting a current of 1˜2 amperes (A) under a constant-current mode with a cut-off voltage of 1.6 volts (V); processing charging and discharging operations in said cell stack; and repeating said charging and discharging operations until charge ends. 2. The method according to claim 1 , wherein, in step (a), said mixed acid solution has a volume ratio of 3:1 of sulfuric acid to nitric acid. 3. The method according to claim 1 , wherein, in step (a), said heating is processed to a temperature of 55˜85° C. and, then, said sonication is processed for 10˜90 min. 4. The method according to claim 1 , wherein, in step (b), said cell stack comprises a proton exchange membrane; two gaskets, said two gaskets clipping said proton exchange membrane; two electrodes, said two electrodes clipping said two gaskets, said two electrodes being said positive electrode and said negative electrode, said two electrodes being made of said carbon felt; two flow plates, said two flow plate clipping said two electrodes, one of said two flow plates having an anode inlet and a cathode inlet, another one of said two flow plates having an anode outlet and a cathode outlet; and two end plates, said two end plates clipping said two flow plates. 5. The method according to claim 1 , wherein, in step (c), said inorganic acid is selected from a group consisting of sulfuric acid, hydrochloric acid, nitric acid and phosphoric acid.