2134/26755
Tanja Radu
Tanja
Radu
Vincent Smedley
Vincent
Smedley
Richard E. Blanchard
Richard E.
Blanchard
Andrew D. Wheatley
Andrew D.
Wheatley
Industrial scale anaerobic digestion of brewery waste: Marmite-Unilever three-year case study
Loughborough University
2017
untagged
Built Environment and Design not elsewhere classified
2017-09-29 11:00:54
Conference contribution
https://repository.lboro.ac.uk/articles/conference_contribution/Industrial_scale_anaerobic_digestion_of_brewery_waste_Marmite-Unilever_three-year_case_study/9431963
Here we discuss operational experiences of the AD facilities used by Marmite Unilever at Burton on Trent to treat brewery waste over the period of three years.
In order to average various concentrations and composition and prevent toxic shocks effluent was balanced in a buffer tank. AD uses a 900 m3 expanded granular sludge blanket (EGSB) tank, at controlled temperature of 35oC and pH 7. There is a throughput of 250 m3/day of waste with loads of 18 kg COD /m3/day in the first year and 26 in the second with 4.4 days HRT. The data reported include COD, suspended solids, Ripley’s ratio, volatile fatty acids, and biogas production, which shown to be good indicators of digestion performance. The initial COD concentration in effluent of 18000 mg/l is reduced to 120 mg/l in waste sent to sewer, resulting in about 99.2% COD reduction. Suspended solids concentrations are reduced from 2400 mg/l in the effluent to 55 mg/l being released to sewer. The wastewater effluent has a very good treatability with 86% COD present as soluble COD. Operational data from an EGSB reactor was analysed before and after problems with the internal separator. Simple VFA analysis using test kits was shown to be the most effective indicator of reactor stability providing an earlier warning of problems than Ripley’s. An average of 80 m3 of biogas is produced every hour, but the variance in gas flow was a difficulty for a direct use in the existing boilers. This has led to the recommendation for additional balancing.