Vanadium battery

What is claimed is: 1. A vanadium redox rechargeable battery, comprising: a first vanadium mixture; and a second vanadium mixture, wherein the first vanadium mixture contains a surface that is composed of a negative electrode, the second vanadium mixture contains a surface that is composed of a positive electrode, the first vanadium mixture contains a solid first vanadium compound, whose oxidation number changes between 2 and 3 due to oxidation or reduction reactions, the second vanadium mixture contains a solid second vanadium compound, whose oxidation number changes between 5 and 4 due to reduction or oxidation reactions, the first vanadium compound is selected from any one of or combination of the following: salt or hydrate salt with sulfate, chloride, fluoride, or coordination compound of vanadium, the second vanadium compound is selected from any one of or combination of the following: salt or hydrate salt with sulfate, chloride, fluoride, or coordination compound of vanadium, and a conductive material, wherein at least one of the first vanadium mixture and the second vanadium mixture is supported, dried and solidified on a surface of the conductive material. 2. The vanadium redox rechargeable battery as set forth in claim 1 , further comprising another negative electrode and another positive electrode. 3. The vanadium redox rechargeable battery as set forth in claim 1 , wherein the first vanadium compound is selected from any one of vanadium(II) sulfate n-hydrate, or vanadium(III) sulfate n-hydrate, and the second vanadium compound is selected from any one of vanadyl(IV) sulfate n-hydrate, or vanadium(V) dioxysulfate n-hydrate. 4. The vanadium redox rechargeable battery as set forth in claim 3 , wherein the first vanadium mixture and/or the second vanadium mixture comprises a sulfuric acid solution and/or silica. 5. The vanadium redox rechargeable battery as set forth in claim 1 , wherein the first vanadium compound is selected from any one of vanadium(II) chloride n-hydrate, or vanadium(III) chloride n-hydrate, and the second vanadium compound is selected from any one of vanadium(IV) oxychloride n-hydrate, or vanadium(V) dioxychloride n-hydrate. 6. The vanadium redox rechargeable battery as set forth in claim 5 , wherein the first vanadium mixture and/or the second vanadium mixture further comprises a hydrochloric acid solution and/or silica. 7. The vanadium redox rechargeable battery as set forth in claim 1 , wherein the first vanadium compound is selected from any one of vanadium(II) fluoride n-hydrate, or vanadium(III) fluoride n-hydrate, and the second vanadium compound is selected from any one of vanadium (IV) oxyfluoride n-hydrate, or vanadium(V) dioxyfluoride n-hydrate. 8. The vanadium redox rechargeable battery as set forth in claim 7 , wherein the first vanadium mixture and/or the second vanadium mixture further comprises a hydrogen fluoride solution and/or silica. 9. The vanadium redox rechargeable battery as set forth in claim 1 , wherein the conductive material is same as a material that forms the negative electrode and the positive electrode, or the conductive material is a part of the negative electrode and the positive electrode. 10. The vanadium redox rechargeable battery as set forth in claim 1 , wherein the conductive material is carbon. 11. The vanadium redox rechargeable battery as set forth in claim 1 , wherein the conductive material is made of any one of carbon fiber, carbon felt, knitted carbon fabric, carbon texture or carbon paper. 12. The vanadium redox rechargeable battery as set forth in claim 1 , further comprising a separator. 13. The vanadium redox rechargeable battery as set forth in claim 12 , wherein the separator is made of an ion exchange membrane. 14. The vanadium redox rechargeable battery as set forth in claim 1 , provided with a stacked structure. 15. A method of manufacturing the vanadium rechargeable battery as set forth in claim 1 , comprising: preparing a solution containing a solvent and a first vanadium compound for forming a first vanadium mixture or a second vanadium compound for forming a second vanadium mixture; immersing a conductive material in the solution; and evaporating the solvent from the solution on the conductive material, thereby producing the vanadium rechargeable battery of claim 1 which comprises at least one of the first vanadium mixture and the second vanadium mixture which is supported on a surface of the conductive material in such a manner that said at least one of the first vanadium mixture and the second vanadium mixture has been dried and solidified on the conductive material. 16. The method as set forth in claim 15 , comprising: performing electrolytic reduction or electrolytic oxidation of a solution containing tetravalent vanadium ions or cations containing vanadium in tetravalent state to obtain the solution in the preparation step as set forth in claim 15 . 17. The method as set forth in claim 16 , comprising: performing electrolytic reduction of a solution containing a solvent and tetravalent vanadium ions or cations containing vanadium in tetravalent state, placing the solution in gas including oxygen before evaporating the solvent to obtain the first vanadium mixture. 18. The method as set forth in claim 16 , comprising: extracting supernatant and precipitations from the solution in the electrolytic oxidation step, and evaporating the solvent from the supernatant and precipitations to obtain the second mixture in the evaporation step.