Biological purifier for untreated waste water and method of producing the same, biological purification method for untreated waste water, and biological purification system for untreated waste water

The invention claimed is: 1. A biological purifier for untreated waste water containing metal ions and sulfate ions, the biological purifier comprising: chaff retaining sulfate-reducing bacteria; an organic-containing material containing 5 mass % or more of crude protein, that is made of at least one selected from sake lees, bean curd refuse, rice bran, tea leaves, Lotus , timothy, and clover; a bacteria source having a bacterial community involved in the sulfate ion-reducing activity; and lime stone, wherein the chaff, the bacteria source, and the lime stone are left with the untreated waste water under anaerobic conditions so that the bacterial community including the sulfate-reducing bacteria is acclimated, and the organic-containing material is added after the acclimation. 2. The biological purifier according to claim 1 , wherein the organic-containing material contains 50 mass % or less of crude fiber. 3. The biological purifier according to claim 1 , wherein the organic-containing material is made of at least one selected from sake lees, rice bran, tea leaves, Lotus , timothy, and clover. 4. The biological purifier according to claim 1 , wherein the bacteria source is at least one selected from bark compost, humus soil, and pre-cultivated rice husks. 5. A biological purification method for untreated waste water containing metal ions and sulfate ions, the method comprising the steps of: providing a biological purifier comprising chaff retaining sulfate-reducing bacteria, an organic-containing material containing 5 mass % or more of crude protein, that is made of at least one selected from sake lees, bean curd refuse, rice bran, tea leaves, Lotus , timothy, and clover, a bacteria source having a bacterial community involved in the sulfate ion-reducing activity, and lime stone; acclimating the bacterial community including the sulfate-reducing bacteria by leaving the chaff, the bacteria source, and the lime stone with the untreated waste water under anaerobic conditions; after the acclimation step, adding the organic-containing material; after the addition step, continuously flowing the untreated waste water through the biological purifier under anaerobic conditions; and thereby removing the metal ions from the untreated waste water by precipitating sulfides of the metal ions. 6. The biological purification method according to claim 5 , wherein the acclimation step comprises: a pre-cultivation step of culturing the bacterial community including the sulfate-reducing bacteria by leaving part of the chaff with the bacteria source and the untreated waste water under anaerobic conditions at a water temperature of 20° C. to 30° C.; and a subsequent cultivation step of further culturing the bacterial community including the sulfate-reducing bacteria by leaving the pre-cultivated chaff with the rest of the chaff, the lime stone, and the untreated waste water under anaerobic conditions at a water temperature of 10° C. to 15° C. 7. A method of producing a biological purifier for untreated waste water containing metal ions and sulfate ions, the method comprising the steps of: acclimating a bacterial community including sulfate-reducing bacteria, involved in the sulfate ion-reducing activity by leaving chaff retaining the sulfate-reducing bacteria, a bacteria source having the bacterial community, and lime stone with the untreated waste water under anaerobic conditions; and then adding an organic-containing material containing 5 mass % or more of crude protein, that is made of at least one selected from sake lees, bean curd refuse, rice bran, tea leaves, Lotus , timothy, and clover to obtain the biological purifier. 8. The method according to claim 7 , wherein the acclimation step comprises: a pre-cultivation step of culturing the bacterial community including the sulfate-reducing bacteria by leaving part of the chaff with the bacteria source and the untreated waste water under anaerobic conditions at a water temperature of 20° C. to 30° C.; and a subsequent cultivation step of further culturing the bacterial community including the sulfate-reducing bacteria by leaving the pre-cultivated chaff with the rest of the chaff, the lime stone, and the untreated waste water under anaerobic conditions at a water temperature of 10° C. to 15° C. 9. The method according to claim 7 , wherein the organic-containing material contains 50 mass % or less of crude fiber.