The addition of conductive materials or metal oxide nanoparticles to an anaerobic system is an attractive strategy to enhance anaerobic digestion. The effect of granular activated carbon (GAC) and/or manganese dioxide (MnO) on waste activated sludge (WAS) anaerobic digestion was investigated by batch experiments. The experiments were provided in control, GAC, MnO, and GAC/MnO groups, which were named R0, R1, R2, and R3, respectively. The sludge characteristics, microbial activity, and microbial community structure were systematically investigated. Results showed that CH yield rate was evidently increased by 68.18% and 51.35% in R1 and R3, respectively, whereas the cumulative CH production decreased by 21.25% in R2, compared with R0. Moreover, the fermentation process could be promoted with the addition of GAC and/or MnO. The phosphate precipitation generated by Mn and phosphate released from WAS blocked the anaerobic metabolic channel and then decreased the production of CH in R2. The increase in CH yield rate in R3 was mainly attributed to the conductivity and adsorption of GAC and the catalysis of MnO. Additionally, the microbial activity could be promoted with the addition of GAC, MnO, and GAC/MnO in anaerobic digestion. Microbial community structure analysis showed that the abundance of the and increased with the addition of GAC and MnO, which could enhance the interspecies electron transfer between fermenting bacteria and methanogens and boost fermentation and CH production.
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