Pseudomonas putida strain as well as its microbial inoculum and application

The invention claimed is: 1. A Pseudomonas putida strain characterized in that it is named as Pseudomonas putida S-1 and preserved on Sep. 25, 2013 with the number of CCTCC NO: M2013444. 2. The Pseudomonas putida strain as claimed in claim 1 wherein the Pseudomonas putida strain's cell is rod-shaped, with flagella but no gemmae; a small round bacteria colony is white with plump profile, smooth, wet and easy to be picked; the lawn grows along the streak, aerobic, with positive oxydase reaction; positive arginine hydrolase and catalase, and negative in indole reaction, methyl red reaction, Voges-Proskauer reaction and gram staining. 3. A microbial inoculum containing the Pseudomonas putida strain as claimed in claim 1 . 4. The microbial inoculum as claimed in claim 3 characterized in that it is in solid form. 5. The microbial inoculum as claimed in claim 4 characterized in that it is mixed by a liquid bacteria and a carrier; the carrier comprises an activated carbon powder, sawdust, dry soil and diatomaceous earth. 6. The microbial inoculum as claimed in claim 4 characterized in that the solid microbial inoculum is directly obtained through solid-state fermentation. 7. The microbial inoculum as claimed in claim 3 characterized in that it belongs to semi-solid microbial inoculum. 8. The microbial inoculum as claimed in claim 7 characterized in that the semi-solid microbial inoculum is obtained through semi-solid fermentation whose culture medium for semi-solid fermentation takes agar as the solid. 9. A method of decomposition of a volatile organic compound comprising the step of: contacting the volatile organic compound with a Pseudomonas putida strain and a microbial inoculum containing the Pseudomonas putida strain, wherein the Pseudomonas putida strain is named as Pseudomonas putida S-1 and preserved on Sep. 25, 2013 with the number of CCTCC NO: M2013444; and wherein the volatile organic compound comprises isopropanol, ethanal, diethyl disulfide and propanethiol. 10. The method as claimed in claim 9 characterized in that the decomposition is conducted at a pH value of 4.0˜10.0, a temperature of 15° C.˜370° C. and salinity of 0%˜3%. 11. A method for treating an exhaust gas containing a volatile organic compound comprising the following steps: (1) transplanting Pseudomonas putida S-1 or a microbial inoculum containing such strain to a bioreactor; (2) passing the exhaust gas through the bioreactor; wherein the Pseudomonas putida strain is named as Pseudomonas putida S-1 and preserved on Sep. 25, 2013 with the number of CCTCC NO: M2013444; and wherein the volatile organic compound comprises isopropanol, ethanal, diethyl disulfide and propanethiol. 12. The method as claimed in claim 11 characterized in that the bioreactor is used at a pH value of 6.0˜8.0, a temperature of 25° C.˜30° C. and salinity of 0%˜1.5%. 13. The method as claimed in claim 11 characterized in that the bioreactor is a stirred bioreactor, an airlift bioreactor or a biotrickling filter. 14. The method as claimed in claim 11 characterized in that the bioreactor is a biotrickling filter. 15. The method as claimed in claim 9 wherein the Pseudomonas putida strain's cell is rod-shaped, with flagella but no gemmae; a small round bacteria colony is white with plump profile, smooth, wet and easy to be picked; the lawn grows along the streak, aerobic, with positive oxydase reaction; positive arginine hydrolase and catalase, and negative in indole reaction, methyl red reaction, Voges-Proskauer reaction and gram staining. 16. The method as claimed in claim 10 wherein the Pseudomonas putida strain's cell is rod-shaped, with flagella but no gemmae; a small round bacteria colony is white with plump profile, smooth, wet and easy to be picked; the lawn grows along the streak, aerobic, with positive oxydase reaction; positive arginine hydrolase and catalase, and negative in indole reaction, methyl red reaction, Voges-Proskauer reaction and gram staining.