A biodegradation system used to treat the discharged concentrated liquid ef
fluents from a tuna-processing unit is described. The study includes a char
acterisation of the industrial effluents, the design of a bioprocess treatm
ent and the testing of its performance. The liquid effluent to be treated c
ontained 1570 mg/l suspended matter, 1450 mg/l fats, a chemical oxygen dema
nd (COD) of 11 100 mg/l and a biochemical oxygen demand (BOD) of 6600 mg/l.
The designed system included a physical pre-treatment unit used to remove
the fats and the suspended solids through a decanter, an anaerobic digester
and an activated sludge aerated bio-reactor. The pre-treatment unit allowe
d the elimination of 40% of the suspended matter and fats expressed in term
s of COD. The anaerobic system transformed 45% of the dissolved COD into me
thane gas with a production of about 0.25 m(3) methane per kg of degraded C
OD. The aerated treatment unit achieved 85% reduction of COD. An integrated
system, combining the three steps, permitted the processing of 1.2 kg COD/
m(3) per day and the removal of up to 95% of the COD with minimal energy co
nsumption and minimal sludge production. (C) 2000 Elsevier Science Ltd. All
rights reserved.