In recent years, the problem of air pollution has received more and more attention, and the problem of odor is even more common to the general public. However, the source of these odors are mainly volatile organic compounds. Therefore, trimethylamine was used as the main volatile organic compounds in this study. In addition, high-gravity rotating packed bed was introduced for chemical oxidation through its high mass transfer effect with some chemical agents. In this study, under proper operating conditions, only a high-gravity rotating bed was used for absorption, a removal efficiency of over 82.8% could be achieved. Moreover, adding chlorine dioxide, hydrogen peroxide, and citric acid twice the moles of trimethylamine for chemical oxidation, the overall maximum removal efficiency can reach 99.4%, 95.9%, and 92.1%, respectively. At the same time, a theoretical model was also developed in this research to estimate the overall mass transfer coefficient, and compare with the actual value. Finally, field experimentation was conducted in a petrochemical plant, and other types of volatile organic compounds were used as targets, such as methanol, methyl acrylate, etc. In the three-stage feasibility evaluation, the results showed that when only adding chlorine dioxide, the removal efficiency was only 69%, and odor of chlorine dioxide was generated; on the other hand, only using the high-gravity rotating packed bed for absorption, it could reach 91% the removal efficiency, and the odor improvement effect was better. Finally, if chlorine dioxide was added and the high-gravity rotating packed bed was used for absorption at the same time, the removal efficiency of 99.1% can be achieved and the odor can be effectively removed.