Volatile organic compounds (VOCs) are used extensively in a variety of industrial and domestic application. The serious problem related to the emission of VOCs is that they participate in the photochemical reaction and also in the formation of photochemical oxidants. The oxidants damage human and vegetation. This work presents a photocatalysis-based method to treat and purify air because of its broad applicability to common, oxidizable air contaminants. The effects of temperature, oxygen content, humidity, and 1-propanol concentration on the photooxidation of 1-propanol were investigated. The photocatalytic decomposition reaction of 1-propanol obeyed the first-order equation. The initial rate of 1-propanol degradation could be well described by the Langmuir-Hinshelwood rate form. The specific reaction rate constant and the equilibrium adsorption were 66.6 ppm/sec and =1.35×10^(-3) (ppm)^(-1), respectively. Higher temperature inhibited the oxidation of 1-propanol. The decomposition rate was increased with increasing the oxygen content. The rate of 1-propanol oxidation was increased when water vapor was increased from 458 ppm to 980 ppm and decreased at higher than 980 ppm. Propanal and carbon dioxide were detected as the by-product and final product of reaction for photocatalytic oxidation of 2-propanol in gas-phase.