3.2. Fate of the volatile fatty aci

3.2. Fate of the volatile fatty acids during voltage production
VFAs are important readily biodegradable substrates in MFCs treating wastewater, as acetate and butyrate, can be used directly to enhance power generation. High levels of VFAs inhibit the microbial activity in the bioreactor, while the protons produced from VFAs in MFCs are reduced to water, which retains a constant pH. In terms of the substrate affinity in the MFCs, a previous study reported that MFCs fed with acetate or butyrate produced higher power than those fed with propionate (Ahn and Logan, 2010). Fig. 4 presents the results of batch mode in a single cycle to moni- tor the VFAs degradation during the voltage production. At the ini- tial stage (arrow a), butyrate and acetate were the dominant VFAs and the major proportion of organic matter was non-VFAs. When voltage production was initiated by replacing food waste leachate (moving point a to b in Fig. 4a), 41% acetate and 33% butyrate reduction contributed to power generation. Non-VFAs (54% reduc- tion) were also degraded and contributed to the bioelectro- chemical reaction. No VFAs were observed after the voltage was decreased from point c to d.
3.3. Sequencing batch mode MFCs: CEmax condition (Rext=56 X in the batch mode)
When the organic loading rates (OLRs) was varied with CEmax (Pmax) condition (Rext = 56 X based on the batch mode results), MFCs produced different power densities; 715 ± 39, 769 ± 32 and 587.4 ± 69 mW/m2 in OLRs of 1.5, 3.1 and 6.2 g COD/L-d, respec- tively. The highest OLR resulted in a low power density, current density and potential production, suggesting that a short hydraulic retention time (HRT) can affect the electrical generation in MFCs by the shorter contact time between the biofilm and organic matter. This corresponds to other studies, which reported that a low HRT adversely affected the performance of MFCs (Rahimnejad et al., 2011; Li et al., 2013a,b). On the other hand, other studies reported that a low HRT could enhance power production in MFCs. More- over, increasing the OLRs led to significant improvement in elec- tricity generation (Akman et al., 2013; Ge et al., 2013a,b).
A higher CE (52.6 ± 4.4%) was calculated at an OLR of 1.5 g COD/ L-d compared to other studies using food waste (