Activated carbon, known for its strong adsorption capabilities, plays a critical role in waste incineration systems by effectively capturing harmful gases and particulate matter. This helps reduce air pollution, protect the environment, and safeguard public health.

Its adsorption works through a well-developed pore structure (including micro-, meso-, and macropores) and a high specific surface area, which provide abundant active sites for trapping pollutants. As flue gas and contaminants pass through the activated carbon layer, toxic components are efficiently adsorbed, ensuring that the discharged gases meet environmental standards.

In modern waste incineration facilities, activated carbon is commonly used in flue gas purification systems as a filter medium. It captures pollutants such as dioxins, mercury vapors, acid gases, and fine dust particles, significantly improving air quality. Moreover, activated carbon can also be applied in post-incineration waste residue treatment, helping to adsorb remaining toxins and minimize secondary environmental impact.

Thanks to its reliable performance and environmental benefits, activated carbon is a proven and cost-effective solution for pollution control in waste-to-energy and municipal incineration projects. It is the ideal material for companies seeking to improve emission control and comply with increasingly strict environmental regulations.