Biological desulfurization is a method of using bioactive substances or microorganisms to remove sulfur dioxide (SO2) emitted from coal combustion. It reduces environmental pollution by utilizing specific microorganisms or microbial communities to convert sulfur dioxide into soluble and absorbable compounds.
Biological desulfurization usually involves two main steps: biological oxidation and biological reduction. During the biological oxidation stage, certain microorganisms such as Thiobacillus spp. can utilize oxidation reactions to convert sulfur dioxide into sulfuric acid. In the bioreduction stage, other microorganisms such as Desulfotomaculum spp. are able to reduce sulfuric acid to hydrogen sulfide (H2S). Hydrogen sulfide can be further processed or converted into other useful products.
Biological desulfurization has some advantages, such as lower operating costs, recyclable by-products, and environmental friendliness. However, implementing biological desulfurization requires consideration of factors such as microbial growth conditions, suitable temperature and pH ranges, and other components in the exhaust gas.
It should be noted that biological desulfurization technology is still in the development stage and may not be widely applied in all situations. Before practical application, sufficient experiments and research are needed to evaluate its applicability and effectiveness.
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