Peer-Reviewed Journal Details
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Thamsiriroj, T,Nizami, AS,Murphy, JD
2012
January
Applied Energy
Why does mono-digestion of grass silage fail in long term operation?
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Grass silage Mono-digestion Anaerobic digestion Modelling ADM1 PROCESS STABILITY BIOGAS PRODUCTION MAIZE SILAGE COBALT BIOMETHANE SUBSTRATE METHANOL
95
64
76
This paper presents modelling based on 340 days of operation of a small pilot-scale, 2-stage completely-mixed digester, loaded gradually up to an organic loading rate of 2.5 kg m(-3) d(-1). The reactor suffered mechanical failure in the agitation system due to high solids content in the digester. This was preceded by a 20% fall in methane production (from 455 to 363 L CH4 kg(-1) VS added) when the loading rate was increased from 2 to 2.5 kg VS m(-3) d(-1). The system was modelled using the ADM1 model which could not correctly simulate total VFA and pH in the digester system. Lactic acid is a significant element of grass silage (73% of total acids). This paper modified ADM1 through assessment of lactic acid: the results allowed close fit to experimental data. The simulation suggested that inhibition of acetogenesis initiated failure, leading to accumulation of lactic acid, reduction of acetic acid (substrate for aceticlastic methanogens), a drop in pH, less methane production, less destruction of solids, increased dry solids content and eventually failure of the mechanical agitator. (C) 2012 Elsevier Ltd. All rights reserved.
DOI 10.1016/j.apenergy.2012.02.008
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