Abstract
Volatile fatty acids (VFAs) accumulation is a common problem in anaerobic digestion, which is constraining the process. In this study, bioaugmentation was initially adopted as a measure to tackle the acidification problem in a continuous anaerobic digester. However, after bioaugmentation stopped, the promotive effect of bioaugmentation was hard to sustain. In comparison, the combination of bioaugmentation and Activated charcoal (AC) enabled a better reactor performance. The positive impact of AC on recovery from acidification in sequential batch reactors was thus investigated by feeding either propionate or acetate. The results implied that the addition of AC significantly increased the degradation rate of propionate, thus accelerating the biogas production rate (104 ~ 371%). Moreover, the role of AC is mainly in the immobilization of microorganisms to form bio-AC owing to AC’s physical characteristics (high-surface-area and large number of pores enables adsorption of microorganisms). The biofilms on the AC decreased the distance between the microbes and delayed the washout effect of microorganisms, enabling a longer-lasting effect of bioaugmentation. The 16S-rRNA analysis showed that the addition of AC led to the enrichment of syntrophic microbial guilds (syntrophic VFAs oxidizing bacteria and hydrogenotrophic methanogens). The potential function analysis (PICRUSt2) indicated the significant enhancement of formylmethanofuran dehydrogenase (EC 1.2.7.12) and coenzyme F420 hydrogenase (EC 1.12.98.1) by AC. The results suggested that the addition of AC promoted interspecies electron transfer.
Highlights
Volatile fatty acids (VFAs) are essential intermediates produced in the acidogenesis and acetogenesis steps when organic materials are degraded in Anaerobic digestion (AD)
Stage I: Acidification The running situation of Reactor 1 (R1) was stable at the beginning (HRT 50 days), but when the Hydraulic retention time (HRT) was decreased to 43 days, VFAs started to accumulate
This study demonstrated that the combination of bioaugmentation and Activated charcoal (AC) could restore reactors from VFAs inhibition when fed with lowsolid synthetic wastewater at 37°C
Summary
Volatile fatty acids (VFAs) are essential intermediates produced in the acidogenesis and acetogenesis steps when organic materials are degraded in Anaerobic digestion (AD). The increased concentration of VFAs is caused by an imbalance of metabolic activities between the production of VFAs in the acido genesis/acetogenesis phase and the consumption of acetate in the methanogenesis phase [3]. Many factors such as the change of pH, temperature, organic material overload, Hydraulic retention time (HRT) [4,5], and high ammonia concentration [6,7] could cause this metabolic imbalance. High concentrations of VFAs are toxic to microorganisms in AD, reflected by a low methane yield [8,9]. There fore, keeping VFAs levels low is of considerable importance for optimal AD performance
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