Electrolyte storage unit for redox flow battery and vanadium redox flow battery comprising same

The invention claimed is: 1. An electrolyte storage unit for redox flow batteries, comprising a positive electrode electrolyte storage tank; a negative electrode electrolyte storage tank, wherein each of the positive electrode electrolyte storage tank and the negative electrode electrolyte storage tank comprises a water level sensing pipe protruding perpendicularly from one end thereof, wherein the water level sensing pipe has a water level sensor provided therein; a “∩”-shaped electrolyte transfer pipe extending between the positive electrode electrolyte storage tank and the negative electrode electrolyte storage tank, wherein one end of the electrolyte transfer pipe extends into the water level sensing pipe extending from the positive electrode electrolyte storage tank and an other end of the electrolyte transfer pipe extends into the water level sensing pipe of the negative electrode electrolyte storage tank; a pump provided at the electrolyte transfer pipe to equally adjust a water level of an electrolyte in each of the tanks; and an electrical control unit configured to measure a water level of the electrolyte in each of the tanks using a water level sensor, thereby automatically operating the pump. 2. The electrolyte storage unit of claim 1 , wherein at least one of the positive electrode electrolyte storage tank and the negative electrode electrolyte storage tank further comprises a check valve formed on upper portion thereof. 3. The electrolyte storage unit of claim 2 , wherein at least one of the positive electrode electrolyte storage tank and the negative electrode electrolyte storage tank further comprises a pressure sensor formed therein, and comprises an electrical control unit configured to electrically connect the check valve to the pressure sensor so that the check valve is automatically operated according to an internal pressure of each of the storage tanks. 4. The electrolyte storage unit of claim 2 , wherein the check valve comprises at least one selected from the group consisting of a lift check valve, a swing check valve, a ball check valve, a screw-down stop check valve, a butterfly check valve, a dual plate check valve, a single plate check valve, a tilting disc check valve, and a foot valve. 5. The electrolyte storage unit of claim 1 , wherein, when it is assumed that a cross-sectional area of each of the positive electrode electrolyte storage tank and negative electrode electrolyte storage tank is A and a cross-sectional area of each of the water level sensing pipes of the electrolyte storage tanks is B, the ratio of A to B is in a range of 2:1 to 100:1. 6. A vanadium redox flow battery comprising the electrolyte storage unit defined in claim 1 .