The exothermic reaction of HCS with OH on the single-state potential energy surface was explored by means of Density Function Theory(DFT). The equilibrium structural parameters, the harmonic vibrational frequencies, the total energies and the zero point energies(ZPE) of all the species in the reaction were computed. Six intermediates and seven transition states were located, three exothermic channels were found. The frequency analysis and the Intrinsic Reaction Coordinate(IRC) calculation confirm that the transitions are truthful. The results indicate that there are three exothermic channels and their corresponding products are: P1(H 2O+CS) , P2(H 2S+CO), P3(OCS+H 2), and P1 has a larger branch ratio. The exothermic reaction of HCS with OH on the single-state potential energy surface was explored by means of Density Function Theory (DFT). The equilibrium structural parameters, the harmonic vibrational frequencies, the total energies and the zero point energies (ZPE) of all the species in the reaction were computed. Six factors and seven transition states were located, three exothermic channels were found. The frequency analysis and the Intrinsic Reaction Coordinate (IRC) calculation confirm that the transitions are truthful. The results indicate that there are three exothermic channels and their corresponding products are: P1 (H20 + CS), P2 (H2S + CO), P3 (OCS + H2), and P1 has a larger branch ratio.