Jk. Cho et al., BIOCHEMICAL METHANE POTENTIAL AND SOLID-STATE ANAEROBIC-DIGESTION OF KOREAN FOOD WASTES, Bioresource technology, 52(3), 1995, pp. 245-253
Citations number
28
Categorie Soggetti
Energy & Fuels","Biothechnology & Applied Migrobiology",Agriculture
In order to develop an anaerobic digestion process for Korean food was
tes containing 15-30% total solids (TS) the biochemical methane potent
ials (BMP) of their components and mixture (mixed food waste, MFW) wer
e measured. The methane yields of cooked meat, cellulose (as control),
boiled rice fresh cabbage and MFW were 482, 356, 294, 277 and 472 mi
CH4/gVS added and anaerobic biodegradabilities based on the stoichiome
tric methane yield were 0.82, 0.92, 0.72, 0.73 and 0.86, respectively.
In a one-phase methane reactor system, VFAs were accumulated so exces
sively as to inhibit subsequent methane fermentation. Hence, the MFW w
ith 20% TS was digested in solid-bed, two-phase systems of I I and 8 l
methane reactors. In the 8 l methane reactor system, also, the effect
of effluent recirculation to the solid-bed was studied. No nutrients,
buffer or seed inoculum were added in the 5 l solid-bed. In all cases
, 87-90% of TS in the solid-bed was reduced and approximately 90% of t
he initial bed volatile solid was converted to biogas. The treatment p
eriods for the complete digestion of waste depended mostly upon the pe
rformances of the methane fermenter especially on hydraulic retention
time (HRT) and loading rates. The methane yield was around 405-415 ml/
gVS reduced during entire periods. This value is about 86-88% of the B
MP test data (the ultimate methane yield) with the same sample.