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Studies on the chemical stabilization of digestate from mechanically recovered organic fraction of municipal solid waste
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Orientador(es)
Resumo(s)
This study aims to explore an innovative
approach consisting of the Fenton’s process to stabilise
organic wastes as an alternative to the traditional aerobic
decomposition (composting). Digestate from the anaerobic
digestion of the organic fraction of municipal solid wastes
was taken from a mechanical–biological treatment plant
and was thoroughly characterised regarding physical,
chemical and biological properties. This sludge contained
around 7.8 g Fe kg TS-1
, which can be beneficial to the
chemical oxidation. However, the use of zero-valent iron
nanoparticles or iron(II) salt revealed treatment can be
improved by adding extra iron into the system. The
response surface methodology determined that the best
peroxidation conditions were 35.6 g H2O2 kg TS-1 and
33.1 g Fe2? kg TS-1
, while maintaining constant pH 3,
L/S 5 and room temperature. The chemical treatment
enhanced the stability, reducing the oxygen uptake rate
from 4.63 to 2.57 g O2 kg VS-1 h-1
. Moreover, the germination index increased from 37 to 99.9 %, which means
the treatment yielded a non-phytotoxic product. The outcomes of the present study are promising and open a new
pathway for the Fenton peroxidation in semi-solid processes since this fast method can be very competitive when
compared with the slow composting technology.
Descrição
Palavras-chave
Digestate Chemical stabilisation Fenton Iron nanoparticles Anaerobic digestion
Contexto Educativo
Citação
Editora
Springer