Process of converting carbon dioxide using combination of carbon dioxide mineralization process and metabolism of sulfur-oxidizing microorganisms

The invention claimed is: 1. A process of converting carbon dioxide to a useful substance which is s-adenosylmethionine or spermidine, comprising: (a) (i) converting carbon dioxide to a carbonate/bicarbonate by carbonic anhydrase in a reactor; (ii) reacting the carbonate/bicarbonate with a basic solution, thereby producing a water-soluble carbonate; (iii) reacting the water-soluble carbonate with a solid metal sulfate, thereby forming a metal-carbonate and a water-soluble sulfate; (iv) separating the water-soluble sulfate into sulfuric acid and a basic solution by electrolysis; and (v) recovering the basic solution produced in step (iv) and recycling the recovered basic solution to step (ii) of producing the water-soluble carbonate; (b) culturing Acidithiobacillus thiooxidans in the presence of a produced metal-carbonate product, sulfur as an electron donor, and oxygen (O 2 ) as an electron acceptor, thereby producing the useful substance and a solid metal sulfate by the Acidithiobacillus thiooxidans ; and (c) recovering each of the useful substance and the solid metal sulfate produced in step (b), and recycling the recovered solid metal sulfate to the step iii) of step (a). 2. The process of claim 1 , wherein the metal is an alkali metal. 3. The process of claim 2 , wherein the alkali metal is selected from the group consisting of Ca, Mg, Fe, Si and Al. 4. The process of claim 1 , wherein the recovery of the solid metal sulfate in step (c) is performed by passing a mixture produced in step (b) through a filter to thereby filter the solid metal sulfate, and then drying the filtered solid metal sulfate. 5. A process of converting carbon dioxide to a useful substance which is s-adenosylmethionine or spermidine, comprising: (i) converting carbon dioxide to a carbonate/bicarbonate by carbonic anhydrase in a reactor; (ii) reacting the carbonate/bicarbonate with a basic solution, thereby producing a water-soluble carbonate; (iii) reacting the water-soluble carbonate with a solid metal sulfate, thereby forming a metal carbonate and a water-soluble sulfate; (iv) separating the metal carbonate from the water-soluble sulfate formed in step (iii); (v) separating the separated water-soluble sulfate into sulfuric acid and a basic solution by electrolysis, and recovering and recycling the basic solution to step (ii); (vi) adding sulfur as an electron donor, oxygen (O 2 ) as an electron acceptor, and Acidithiobacillus thiooxidans to the metal carbonate separated in step (iv), followed by culturing Acidithiobacillus thiooxidans , thereby producing a mixture of the useful substance and a solid metal sulfate; and (vii) passing the mixture produced in step (vi) through a filter, thereby recovering each of the useful substance and the solid metal sulfate, and then drying and recycling the recovered solid metal sulfate to step (iii). 6. The method of claim 2 , wherein the recovery of the solid metal sulfate in step (c) is performed by passing a mixture produced in step (b) through a filter to thereby filter the solid metal sulfate, and then drying the filtered solid metal sulfate. 7. The process of claim 1 , wherein the solid metal sulfate is metal SO 4 .