Cell frame, cell stack, and redox flow battery

The invention claimed is: 1. A redox flow battery comprising a cell frame comprising a frame body and a bipolar plate integrated with said frame body, said frame body including a positive electrode liquid supply manifold and a positive electrode liquid discharge manifold which are provided through said frame body and through which a positive electrode electrolyte passes, a positive electrode electrolyte flow path provided on one surface side of said frame body, said positive electrode electrolyte flow path including a positive electrode side inlet slit for introducing said positive electrode electrolyte from said positive electrode liquid supply manifold to a positive electrode provided on one surface side of said bipolar plate, and a positive electrode side outlet slit for discharging said positive electrode electrolyte from said positive electrode to said positive electrode liquid discharge manifold, a negative electrode liquid supply manifold and a negative electrode liquid discharge manifold which are provided through said frame body and through which a negative electrode electrolyte passes, and a negative electrode electrolyte flow path provided on the other surface side of said frame body, said negative electrode electrolyte flow path including a negative electrode side inlet slit for introducing said negative electrode electrolyte from said negative electrode liquid supply manifold to a negative electrode provided on the other surface side of said bipolar plate, and a negative electrode side outlet slit for discharging said negative electrode electrolyte from said negative electrode to said negative electrode liquid discharge manifold, the structure of said positive electrode electrolyte flow path and the structure of said negative electrode electrolyte flow path being different from each other. 2. The redox flow battery according to claim 1 , wherein the structure of the positive electrode side inlet slit and the structure of the positive electrode side outlet slit are different from each other in said positive electrode electrolyte flow path, and the structure of the negative electrode side inlet slit and the structure of the negative electrode side outlet slit are different from each other in said negative electrode electrolyte flow path. 3. The redox flow battery according to claim 1 , wherein the length of the slits of said positive electrode electrolyte flow path and the length of the slits of said negative electrode electrolyte flow path are different from each other. 4. The redox flow battery according to claim 1 , wherein the cross-sectional shape of at least a portion of said positive electrode electrolyte flow path and the cross-sectional shape of at least a portion of said negative electrode electrolyte flow path are different from each other. 5. The redox flow battery according to claim 1 , wherein the cross-sectional area of at least a portion of said positive electrode electrolyte flow path and the cross-sectional area of at least a portion of said negative electrode electrolyte flow path are different from each other. 6. The redox flow battery according to claim 1 , wherein the number of slits forming said positive electrode electrolyte flow path and the number of slits forming said negative electrode electrolyte flow path are different from each other. 7. The redox flow battery according to claim 2 , wherein the structure of said positive electrode side inlet slit and the structure of said negative electrode side outlet slit are identical to each other, and the structure of said positive electrode side outlet slit and the structure of said negative electrode side inlet slit are identical to each other. 8. The redox flow battery according to claim 1 comprising a positive electrode, a negative electrode, and an ion exchange film a plurality of times. 9. The redox flow battery according to claim 1 comprising a cell stack, a positive electrode circulation mechanism for circulating a positive electrode electrolyte through said cell stack, and a negative electrode circulation mechanism for circulating a negative electrode electrolyte through said cell stack.