Production of volatile fatty acids from wastewater screenings using a leach-bed reactor

• A leach bed reactor showed to be effective for the acid digestion of screenings.
• VFA production was optimized to produce 264 g/kg-dry screenings.
• At pH 5.0 acidogenesis was inhibited, the optimum pH found to VFA production was 6.
• Valuable end-products such as VFAs, alcohols and nutrients can be obtained.
• The LBR might be an alternative for reducing the carbon footprint of screenings.

Screenings recovered from the inlet works of wastewater treatment plants were digested without pre-treatment or dilution using a lab-scale, leach-bed reactor. Variations in recirculation ratio of the leachate of 4 and 8 l/lreactor/day and pH values of 5 and 6 were evaluated in order to determine the optimal operating conditions for maximum total volatile fatty acids (VFA) production. By increasing the recirculation ratio of the leachate from 4 to 8 l/lreactor/day it was possible to increase VFA production (11%) and soluble COD (17%) and thus generate up to 264 g VFA/kg-dry screenings. These VFA were predominantly acetic acid with some propionic and butyric acid. The optimum pH for VFA production was 6.0, when the methanogenic phase was inhibited. Below pH 5.0, acid-producing fermentation was inhibited and some alcohols were produced. Ammonia release during the hydrolysis of screenings provided adequate alkalinity; consequently, a digestion process without pH adjustment could be recommended. The leach-bed reactor was able to achieve rapid rates of screenings degradation with the production of valuable end-products that will reduce the carbon footprint associated with current screenings disposal techniques.

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