Abstract
Renewable energy sources are becoming increasingly important in the beverage and food industries. In the brewing industry, a significant percentage of the used raw materials finishes the process as secondary resource or waste. The research on the anaerobic digestion of brewer's yeast has been scarce until recent years. One of the reasons for this is its use as a secondary resource in the food industry and as cattle feed. Additionally, market value of brewer's yeast is higher than its energy value. Due to the increase of energy prices, brewer's yeast has become of interest as energy substrate despite its difficult degradability in anaerobic conditions. The anaerobic co-digestion of brewer's yeast and anaerobically treated brewery wastewater was studied using a pilot-scale anaerobic sequencing batch reactor (ASBR) seeded with granular biomass. The experiments showed very good and stable operation with an organic loading rate of up to 8.0 kg/(m3·day), and with a maximum achieved organic loading rate of 13.6 kg/(m3·day) in a single cycle. A specific biogas productivity of over 0.430 m3/kg of the total chemical oxygen demand (COD) inserted, and total COD removal efficiencies of over 90% were achieved. This study suggests that the brewer's yeast can be successfully digested in an ASBR without adverse effects on the biogas production from brewer's yeast/wastewater mixtures of up to 8% (by volume). By using the brewer's yeast in the ASBR process, the biogas production from brewery wastewater could be increased by 50%.
Highlights
As a result of rising fuel costs and urgent need for the reduction of industrial carbon footprint [1], renewable energy sources are becoming increasingly important in the beverage and food industries
Employing an anaerobic sequencing batch reactor (ASBR) is an effective way of using brewer’s yeast as an energy co-substrate for the biogas production, which can substitute natural gas used in the breweries
In comparison with digesting the yeast in an expanded granular sludge bed (EGSB) reactor, where maximum allowable volume ratio of yeast/wastewater mixture was 1.1 %, much higher volume ratios of yeast/wastewater mixture can be applied in the presented ASBR system
Summary
As a result of rising fuel costs and urgent need for the reduction of industrial carbon footprint [1], renewable energy sources are becoming increasingly important in the beverage and food industries. The brewing wastewater is the dominant waste stream in the brewing industry and as such has received significant attention in recent times. This brewing waste water is treated in anaerobic systems using granular biomass [2]. Equipment suppliers usually prescribe a limit for total solids of 5 g/L In such cases, the ASBR techno logy can offer a solution for the mentioned problem regarding the degradation of high-solid substrates. The ASBR techno logy can offer a solution for the mentioned problem regarding the degradation of high-solid substrates In these reactors the granulated sludge tolerates higher concentrations of solids, due to the settling stage of the operation
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