Continuous Volatile Fatty Acid Production From Acid Brewery Spent Grain Leachate in Expanded Granular Sludge Bed Reactors

Juan Castilla-Archilla,Piet N L Lens,Gavin Collins,Julia Hilbig,Jonas Heiberger,Simon Mills

doi:10.3389/fsufs.2021.664944

Juan Castilla-Archilla, Piet N L Lens + Show 4 more

Open Access

https://doi.org/10.3389/fsufs.2021.664944

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Abstract

The production of volatile fatty acids (VFAs) in expanded granular sludge bed (EGSB) reactors using leachate from thermal diluted acid hydrolysis of brewery spent grain was evaluated. Partial inhibition of the anaerobic digestion process to induce VFA accumulation was achieved by applying a high organic loading rate [from 15.3 to 46.0 gCOD/(L·day)], and using a feed with an inlet concentration of 15 g/L total carbohydrates. Two EGSB reactors were operated under identical conditions, both inoculated with the same granular sludge. However, granular sludge in one reactor (R1) was subsequently disaggregated to flocculent sludge by a pH shock, whereas granules remained intact in the other reactor (R2). The hydraulic retention time (HRT) of both reactors was decreased from 36 to 24, 18 and 12 h. The main fermented compounds were acetic acid, butyric acid, propionic acid and ethanol. Despite fluctuations between these products, their total concentration was quite stable throughout the trial at about 134.2 (±27.8) and 141.1 (±21.7) mmol/L, respectively, for R1 and R2. Methane was detected at the beginning of the trial, and following some periods of instability in the granular sludge reactor (R2). The hydrogen yield increased as the HRT decreased. The highest VFA production was achieved in the granular sludge reactor at a 24 h HRT, corresponding to 120.4 (±15.0) mmol/L of VFAs. This corresponded to an acidification level of 83.4 (±5.9) g COD of VFA per 100 gram of soluble COD.

Highlights

Anaerobic digestion (AD) has been widely implemented as a method of biological wastewater treatment, where mixed microbial communities convert organic matter to biogas (CH4 and CO2)
In Reactor 1 (R1), when the organic loading rate (OLR) was increased on day 66 up to 20 g total carbohydrates (TC)/(L·d) (Phase III), lactic acid became the major product replacing all the other compounds (Figure 2A)
This study demonstrated the production of volatile fatty acid (VFA) using granular and flocculent anaerobic sludge, without pretreatment, from thermal acid hydrolysate of brewery spent grain

Summary

Introduction

Anaerobic digestion (AD) has been widely implemented as a method of biological wastewater treatment, where mixed microbial communities convert organic matter to biogas (CH4 and CO2). During the acidogenesis step of AD, hydrogen and carbon dioxide are produced, along with fermented products such as ethanol and/or volatile fatty acids (VFAs). To improve this process and maximize hydrogen production, different pre-treatments have been applied to the inoculum. Different reactor configurations can influence microbial community composition by altering selection pressures such as solids retention time, resulting in the wash out of microorganisms with slower growth rates, e.g., methanogens, or enriching faster growing organisms, e.g., acidogens (Etchebehere et al, 2016; Lim et al, 2020)

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