Avaliação de partículas poliméricas como material suporte em reator anaeróbio de leito fluidizado no tratamento de fenol.
Resumen
This work had as objective studies of the biofilms formation in polymerics
particles used as material supports in anaerobic fluidized-bed reactors. Three
polymerics supports were tested: polystyrene, PET and PVC, which suffered
appropriate acid treatment, in way to provide them superficial characteristics as
rugosity, porosity and favorable electric charge, with the purpose of favoring the
microbial adhesion. The reactors were inoculated with sludge originating from
reactor UASB that treated swine slaughterhouse residue, adapted to the
degradation of the phenol by 150 days. The volume of the reactors was of
770cm3, and they operated with ascendant speed of 1,3 times of the flow rate of
the minimum fluidization. The phenol concentration varied from 100 to 400mg/L
in the feeding of each system, presenting results of removal of phenol of 97%,
98% and 97,5% and removal of DQO of 84%, 88,5% and 87%, respectively for
the reactors with polystyrene, PET and PVC, which operated with time of
detention hydraulic relative the height of the bed, corresponding to the reactional
volume of the reactors (TDHr) of 22 h, 10,6 h and 20,4 h, respectively. The
quantification of extracellular polymeric showed better results for the particles of
PVC that it presented 0,2 mgCarbohydrate/gParticle and 0,06
mgProteyn/gParticle. However, deformations in those particles harming the acting
of the reactor, defining as better support the particles of PET, and in this reactor
the percentage of phenol removal was larger for a smaller TDHr.