Catalytic incineration is one of the cost-effective technologies to solve the troublesome volatile organic compounds (VOCs). However, some sulfur containing VOCs, such as dimethyl sulfide, may deactivate the Pt catalyst that is commonly used in the catalytic incineration process. This paper provides information on the poisoning effect of (CH3)(2)S The catalytic incineration of (CH3)(2)S, typically emitted from the petrochemical industry, over a Pt/Al2O3 fixed bed catalytic reactor was studied. The effects of operating parameters including inlet temperature, space velocity, (CH3)(2)S concentration, O-2 concentration and catalyst size were characterized. Catalytic incineration on a mixture of (CH3)(2)S with CH3SH was also tested. The results show that the conversions of (CH3)(2)S increase as the inlet temperature increases and the space velocity decreases. The higher the (CH3)(2)S concentration is, the lower its conversion is. The O-2 concentration has a positive effect on the conversion of (CH3)(2)S. (CH3)(2)S has a poisoning effect on the Pt/Al2O3 catalyst, especially at lower temperatures. The conversion of (CH3)(2)S is significantly suppressed by the existence of CH3SH.