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Biogas production from brown grease using a pilot-scale high-rate anaerobic digester

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  • Zhang, Pengchong
  • Lin, Che-Jen
  • Liu, James
  • Pongprueksa, Pruek
  • Evers, Simon A.
  • Hart, Peter

Abstract

Food wastes are typically disposed of in landfills for convenience and economic reasons. However, landfilling food wastes increases the organic content of leachate and the risk of soil contamination. A sound alternative for managing food wastes is anaerobic digestion, which reduces organic pollution and produces biogas for energy recovery. In this study, anaerobic digestion of a common food waste, brown grease, was investigated using a pilot-scale, high-rate, completely-mixed digester (5.8 m3). The digestibility, biogas production and the impact of blending of liquid waste streams from a nearby pulp and paper mill were assessed. The 343-day evaluation was divided into 5 intensive evaluation stages. The organic removal efficiency was found to be 58 ± 9% in terms of COD and 55 ± 8% in terms of VS at a hydraulic retention time (HRT) of 11.6 ± 3.8 days. The removal was comparable to those found in organic solid digesters (45–60%), but at a much shorter HRT. Methane yield was estimated to be 0.40–0.77 m3-CH4@STP kg-VSremoved−1, higher than the typical range of other food wastes (0.11–0.42 m3-CH4@STP kg-VSremoved−1), with a mean methane content of 75% and <200 ppm of hydrogen sulfide in the biogas. The blending of selected liquid wastes from a paper mill at 10 vol% of brown grease slurry did not cause significant reduction in digester performance. Using a pseudo-first-order rate law, the observed degradation constant was estimated to be 0.10–0.19 d−1 compared to 0.03–0.40 d−1 for other organic solids. These results demonstrate that brown grease is a readily digestible substrate that has excellent potential for energy recovery through anaerobic digestion.

Suggested Citation

  • Zhang, Pengchong & Lin, Che-Jen & Liu, James & Pongprueksa, Pruek & Evers, Simon A. & Hart, Peter, 2014. "Biogas production from brown grease using a pilot-scale high-rate anaerobic digester," Renewable Energy, Elsevier, vol. 68(C), pages 304-313.
    • Handle: RePEc:eee:renene:v:68:y:2014:i:c:p:304-313
    DOI: 10.1016/j.renene.2014.01.046
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    References listed on IDEAS

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    1. Zhu, Zhenwei & Hsueh, Michael K. & He, Qiang, 2011. "Enhancing biomethanation of municipal waste sludge with grease trap waste as a co-substrate," Renewable Energy, Elsevier, vol. 36(6), pages 1802-1807.
    2. Alexandre, V.M.F. & Valente, A.M. & Cammarota, Magali C. & Freire, Denise M.G., 2011. "Performance of anaerobic bioreactor treating fish-processing plant wastewater pre-hydrolyzed with a solid enzyme pool," Renewable Energy, Elsevier, vol. 36(12), pages 3439-3444.
    3. Hilkiah Igoni, A. & Ayotamuno, M.J. & Eze, C.L. & Ogaji, S.O.T. & Probert, S.D., 2008. "Designs of anaerobic digesters for producing biogas from municipal solid-waste," Applied Energy, Elsevier, vol. 85(6), pages 430-438, June.
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    1. Adepoju PO & Adeniran KA & Adepoju TF, 2020. "Investigation of Biogas Potential of Plantain Peels Mixed with Poultry Droppings as an Alternative Energy Source and Its Statistical Analysis," Biomedical Journal of Scientific & Technical Research, Biomedical Research Network+, LLC, vol. 27(3), pages 20752-20759, April.

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