Integrating Anaerobic Digestion of Pig Slurry and Thermal Valorisation of Biomass View Full Text


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Article Info

DATE

2019-11-04

AUTHORS

J. González-Arias, C. Fernández, J. G. Rosas, M. P. Bernal, R. Clemente, M. E. Sánchez, X. Gómez

ABSTRACT

PurposeThe feasibility of coupling the anaerobic digestion of pig manure and co-pyrolysis of its digestate with milk thistle as lignocellulosic biomass was studied. Kinetic analysis was performed along with an evaluation of energy recovery attained from a combined approachMethodsPig slurry was digested under mesophilic semi-continuous conditions. Digestate was dried and submitted to thermogravimetric analysis under inert atmosphere along with milk thistle samples. Kinetic evaluation was carried out using non-isothermal methods. Assessment of the energy obtained from the combined digestion and pyrolysis process was performed.ResultsDigestion resulted in a yield of 308.5 ± 18.2 mL CH4/g VS. The evaluation of co-pyrolysis of mixtures at different contents of milk thistle showed no interactions between the two materials during pyrolysis. The energy need associated with thermal drying of digestate was 476 MJ/m3 of pig slurry.ConclusionsCo-pyrolysis of lignocellulosic biomass and digestate [25% content of digestate (w/w)] resulted in a lower char production, associated with the lower ash content of the former. The extra supply of energy needed for thermal drying of the digestate might be obtained from co-pyrolysis with biomass. This approach presented an energy recovery of about 29.4%Graphic Abstract More... »

PAGES

6125-6137

References to SciGraph publications

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    61 kinetic analysis
    62 kinetic evaluation
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    68 materials
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    73 mixture
    74 need
    75 non-isothermal methods
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    78 process
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    81 pyrolysis process
    82 recovery
    83 samples
    84 semi-continuous conditions
    85 slurry
    86 supply
    87 thermal drying
    88 thermal valorisation
    89 thermogravimetric analysis
    90 thistle
    91 thistle samples
    92 valorisation
    93 yield
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