While chlorinated volatile organic compounds (VOCs) are often considered dioxin precursors, the formation pathways of dioxins during biogas combustion from food waste anaerobic digestion plants remain poorly understood. This study investigated the generation and emission characteristics of VOCs and dioxins in the exhaust gas from a steam generator (SG) and a combined heat and power (CHP) unit. Exhaust gas analysis revealed that total VOC concentrations were significantly higher in the SG exhaust gas (2735.10 ± 1007.82 μg/m 3 ) than in the CHP exhaust gas (1096.88 ± 196.26 μg/m 3 ), reflecting different combustion efficiencies. Notably, common precursors like chlorobenzenes and chlorophenols were not detected. Statistical analysis revealed a strong correlation between non-chlorinated VOCs and Cl 1−8 DD/Fs congeners in both systems. The only detected chlorinated VOC, dichloromethane, did not cluster with any Cl 1−8 DD/Fs congeners. Our findings indicate a functional separation: non-chlorinated VOCs may provide the carbon skeleton for dioxin formation, while chlorinated compounds primarily act as chlorine donors in the chlorination process. This study provides a new hypothesis on the role of VOCs in dioxin formation from biogas combustion and underscores that effective control requires optimizing combustion, pretreating biogas to remove chlorine sources, and installing advanced flue gas control devices. • Biogas utilization method significantly influences dioxin congener distribution. • Dioxins in SG exhaust form via de novo synthesis; in CHP via precursor synthesis. • VOCs are higher in steam boiler exhaust due to lower combustion temperatures. • Chlorinated VOCs do not directly participate in the structural formation of dioxins. • Non-chlorinated VOCs act as C H sources for dioxins via de novo synthesis.
Wei et al. (Fri,) studied this question.