Process for manufacturing porous carbon material

What is claimed is: 1. A process for manufacturing a porous carbon material, comprising: a porous carbon forming step of performing a heating treatment in a contact state of a metal carbide, which is a compound of a first metal and carbon, with chlorine gas, to form a porous carbon material; a first metal reduction step of reacting a first metal chloride formed along with the porous carbon material in the porous carbon forming step, with a second metal, to extract the first metal; and a metal carbide forming step of reacting the first metal extracted in the first metal reduction step, with carbon to form the metal carbide, the process further comprising: a second metal reduction step of reducing a second metal chloride formed along with the first metal in the first metal reduction step, to extract the second metal and chlorine gas, after the first metal reduction step. 2. The process for manufacturing the porous carbon material according to claim 1 , wherein the porous carbon forming step, the first metal reduction step, the metal carbide forming step, and the second metal reduction step are repetitively carried out, wherein the metal carbide extracted by the metal carbide forming step is used in the porous carbon forming step, wherein the chlorine gas extracted by the second metal reduction step is used in the porous carbon forming step, and wherein the second metal extracted by the second metal reduction step is used in the first metal reduction step. 3. The process for manufacturing the porous carbon material according to claim 1 , wherein the metal carbide used in the porous carbon forming step is a powdery or porous body. 4. The process for manufacturing the porous carbon material according to claim 1 , wherein the metal carbide includes at least one of Al 4 C 3 , B 4 C, CaC 2 , Cr 3 C 2 , Fe 3 C, SiC, ThC 2 , TiC, UC 2 , WC, and MoC. 5. The process for manufacturing the porous carbon material according to claim 1 , wherein the porous carbon forming step is carried out in such a manner that the metal carbide is placed in a mixed gas atmosphere of the chlorine gas and an inert gas, or in an atmosphere of the chlorine gas and that the mixed gas atmosphere or the chlorine gas atmosphere is heated at a temperature of not less than 500° C. and not more than 1500° C. 6. The process for manufacturing the porous carbon material according to claim 1 , wherein the porous carbon forming step is carried out in such a manner that the metal carbide is SiC, that the metal carbide is placed in a mixed gas atmosphere of the chlorine gas and an inert gas, or in an atmosphere of the chlorine gas, and that the mixed gas atmosphere or the chlorine gas atmosphere is heated at a temperature of not less than 900° C. and not more than 1300° C. 7. The process for manufacturing the porous carbon material according to claim 1 , wherein the porous carbon forming step is carried out in such a manner that the metal carbide is TiC, that the metal carbide is placed in a mixed gas atmosphere of the chlorine gas and an inert gas, or in an atmosphere of the chlorine gas, and that the mixed gas atmosphere or the chlorine gas atmosphere is heated at a temperature of not less than 600° C. and not more than 1000° C. 8. The process for manufacturing the porous carbon material according to claim 1 , wherein the second metal is any one of a Group 1 element, a Group 2 element, a Group 11 element, and a Group 12 element. 9. The process for manufacturing the porous carbon material according to claim 1 , wherein in the porous carbon forming step, the metal carbide is SiC and the second metal is Zn. 10. The process for manufacturing the porous carbon material according to claim 1 , wherein in the porous carbon forming step, the metal carbide is TiC and the second metal is Mg.