The source of garbage odor pollution is quite extensive, including garbage bins, garbage dumping sites, garbage trucks, garbage transfer stations, landfills, garbage incinerators, and sanitation vehicles, all of which emit unpleasant odors, especially in the high temperatures of summer, which accelerate the rotting process of the garbage and easily produce foul smell. The main components of odors are ammonia, amines, and other nitrogen-containing compounds, as well as hydrogen sulfide, thiol, and other sulfur-containing compounds.
Sanitation plant-based deodorants use advanced plant extraction technology to extract effective ingredients from the roots, stems, leaves, and flowers of various plants. Under the action of radiation, the plant extract increases in activity, quickly engaging in chemical reactions such as polymerization, substitution, displacement, and adsorption with various harmful and odorous molecules. Due to the presence of lone pair electrons in the N and S atoms in odorous components, they have a strong ability to bind protons. Based on this property, the functional groups with electron-rich properties in the plant extract's effective ingredients can be effectively utilized to generate non-toxic substances through nucleophilic addition reactions. For example, hydrogen sulfide reacts with the plant extract to produce sulfate ions and water, while ammonia reacts with the plant extract to produce nitrogen gas and water.
Sanitation plant-based deodorants can effectively remove foul-smelling gases such as hydrogen sulfide, methane, methanethiol, ammonia, and other volatile organic compounds (VOCs). They can act on acidic, alkaline, and neutral gases simultaneously, and effectively absorb foul-smelling molecules in the air for different odorous locations and substances. Additionally, they can be diluted with water at different ratios according to actual conditions before use.
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