Anaerobic degradation of nonionic and anionic surfactants in enrichment cultures and fixed-bed reactors

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Anaerobic biodegradation and inhibitory effects of nonionic and anionic surfactants on methanogenic fermentation were tested in incubation experiments with anoxic sediment samples and sewage sludge. Alkylsulfonates and alkylbenzenesulfonates were not degraded but inhibited methanogenesis from sludge constituents at concentrations ≥10 mgl −1. Sodium dodecylsulfate was at least partly degraded after adaptation at concentrations ⩽100 mgl −1 and the sulfate group was reduced to sulfide. The polyethyleneglycol moiety of alkylphenolethoxylates was fermented to methane at concentrations ⩽500 mgl −1 whereas the alkylphenol residue probably remained unchanged. Alkylethoxylates were completely degraded to methane and CO 2 at concentrations up to 1.0 gl −1. Complete anaerobic degradation of this surfactant type to methane, CO 2, and traces of acetate and propionate was demonstrated in a lab scale anaerobic fixed-bed reactor, either with prereduced mineral salts medium or with air-saturated artificial wastewater. This process lends itself as a suited, inexpensive means for treatment of wastewaters containing enhanced loads of nonionic surfactants, e.g. from the surfactant manufacturing or processing industry.