Redox flow battery

The invention claimed is: 1 . A redox flow battery comprising: a positive electrolyte containing a positive electrode active material; and a negative electrolyte containing a negative electrode active material, wherein a liquid amount of the positive electrolyte is different from a liquid amount of the negative electrolyte, of the positive electrolyte and the negative electrolyte, a liquid amount ratio of the electrolyte larger in liquid amount to the electrolyte smaller in liquid amount is not lower than 1.05 and not higher than 5.0, a state of charge of a mixture electrolyte which is a mixture of the positive electrolyte and the negative electrolyte at a ratio equal to the liquid amount ratio is equal to or higher than 2% and equal to or lower than 20%, the state of charge of the mixture electrolyte is defined as (m/Cp)×100 [%] when a condition of m>0 is satisfied and is defined as (m/Cn)×100 [%] when a condition of m<0 is satisfied, the m is defined as (Cpo·vp−Cnr·vn)/(vp+vn) [mol/L], the Cp is a total concentration of the positive electrode active material and is expressed as Cp=Cpr+Cpo, the Cn is a total concentration of the negative electrode active material and is expressed as Cn=Cnr+Cno, the Cpr is a concentration (mol/L) of a reductant of the positive electrode active material, the Cpo is a concentration (mol/L) of an oxidant of the positive electrode active material, the Cnr is a concentration of a reductant of the negative electrode active material, the Cno is a concentration of an oxidant of the negative electrode active material, the vp is the liquid amount (L) of the positive electrolyte, and the vn is the liquid amount (L) of the negative electrolyte. 2 . The redox flow battery according to claim 1 , comprising: a positive electrolyte tank where the positive electrolyte is stored; and a negative electrolyte tank where the negative electrolyte is stored, wherein of the positive electrolyte tank and the negative electrolyte tank, a ratio of a volume of the tank where the electrolyte larger in liquid amount is stored to a volume of the tank where the electrolyte smaller in liquid amount is stored is not lower than 1.0 and not higher than 6.0. 3 . The redox flow battery according to claim 1 , wherein the positive electrode active material and the negative electrode active material are metallic ions composed of an identical element. 4 . The redox flow battery according to claim 3 , wherein the metallic ions include vanadium ions. 5 . The redox flow battery according to claim 1 , wherein the positive electrode active material and the negative electrode active material are metallic ions composed of elements different from each other. 6 . The redox flow battery according to claim 5 , wherein the positive electrode active material is at least one type of metallic ions selected from the group consisting of iron ions, vanadium ions, and manganese ions, and the negative electrode active material is at least one type of metallic ions selected from the group consisting of zinc ions, chromium ions, vanadium ions, and titanium ions. 7 . The redox flow battery according to claim 1 , wherein the liquid amount of the positive electrolyte is greater than the liquid amount of the negative electrolyte, and the liquid amount ratio of the positive electrolyte to the negative electrolyte is not lower than 1.05 and not higher than 5.0. 8 . A redox flow battery comprising: a positive electrolyte containing a positive electrode active material; and a negative electrolyte containing a negative electrode active material, wherein a liquid amount of the positive electrolyte is different from a liquid amount of the negative electrolyte, of the positive electrolyte and the negative electrolyte, a liquid amount ratio of the electrolyte larger in liquid amount to the electrolyte smaller in liquid amount is not lower than 1.05 and not higher than 5.0, a state of charge of a mixture electrolyte which is a mixture of the positive electrolyte and the negative electrolyte at a ratio equal to the liquid amount ratio is not lower than 2% and not higher than 20%, the positive electrode active material is at least one type of metallic ions selected from the group consisting of iron ions, vanadium ions, and manganese ions, and the negative electrode active material is at least one type of metallic ions selected from the group consisting of zinc ions, chromium ions, vanadium ions, and titanium ions. 9 . The redox flow battery according to claim 8 , wherein the liquid amount of the positive electrolyte is greater than the liquid amount of the negative electrolyte, and the liquid amount ratio of the positive electrolyte to the negative electrolyte is not lower than 1.05 and not higher than 5.0.