Publication: Co-digestion of napier grass with food waste and napier silage with food waste for methane production
Issued Date
2018-11-01
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19961073
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2-s2.0-85057821950
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Mahidol University
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SCOPUS
Bibliographic Citation
Energies. Vol.11, No.11 (2018)
Suggested Citation
Suriyan Boonpiyo, Sureewan Sittijunda, Alissara Reungsang Co-digestion of napier grass with food waste and napier silage with food waste for methane production. Energies. Vol.11, No.11 (2018). doi:10.3390/en11113200 Retrieved from: https://repository.li.mahidol.ac.th/handle/20.500.14594/45766
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Title
Co-digestion of napier grass with food waste and napier silage with food waste for methane production
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Abstract
© 2018 by the authors. Licensee MDPI, Basel, Switzerland. Enhancement of methane production by co-digestion of Napier grass and Napier silage with food waste was investigated in batch and repeated batch modes. First, the ratios of Napier grass to food waste and Napier silage to food waste were varied at different g-volatile solids (VS) to g-VS at an initial substrate concentration of 5 g-VS/L. The optimum ratios of Napier grass to food waste and Napier silage to food waste were 1:4 and 3:2 (g-VS/g-VS), respectively. This gave maximum methane yields (MY) of 411 and 362 mL-CH2/g-VSadded, respectively. Subsequently, the suitable ratios were used to produce methane at various substrate concentrations. A maximal MY of 403 and 353 mL CH2/g-VS were attained when concentrations of Napier grass co-digested with food waste and Napier silage co-digested with food waste were 15 g-VS/L and 20 g-VS/L, respectively. Under the optimum substrate concentration, the maximum MY from co-digestion of Napier grass with food waste was 1.14 times higher than that of Napier silage with food waste. Thus, co-digestion of Napier grass with food waste was further investigated at various organic loading rates (OLRs) in a 10.25 L horizontal reactor with a working volume of 5 L at an optimal ratio of 1:4 (g-VS/g-VS) and substrate concentration of 15 g VS/L. An OLR of 1.5 g-VS/L-d gave a maximum methane production rate and MY of 0.5 L CH2/L-d and 0.33 L-CH2/g-VSadded, respectively. Under the optimum OLR, the predominant methane producers were Methanoregula sp., Methanotorris sp., Methanobacterium sp., Methanogenium sp. and Methanosarcina sp. An energy production of 11.9 kJ/g-VSadded was attained.