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Titolo:
HYDROLYSIS AND DEGRADATION OF FILTRATED ORGANIC PARTICULATES IN A BIOFILM REACTOR UNDER ANOXIC AND AEROBIC CONDITIONS
Autore:
JANNING KF; MESTERTON K; HARREMOES P;
Indirizzi:
TECH UNIV DENMARK,DEPT ENVIRONM SCI & ENGN,BLDG 115 DK-2800 LYNGBY DENMARK
Titolo Testata:
Water science and technology
fascicolo: 1, volume: 36, anno: 1997,
pagine: 279 - 286
SICI:
0273-1223(1997)36:1<279:HADOFO>2.0.ZU;2-0
Fonte:
ISI
Lingua:
ENG
Soggetto:
ACTIVATED-SLUDGE PROCESS; WASTE-WATER;
Keywords:
BIOCARBONE; BIOFILTER; PRE-SETTLED WASTE-WATER; HYDROLYSIS; DENITRIFICATION; OUR; PARTICULATE ORGANIC MATTER; TOC; TIC;
Tipo documento:
Review
Natura:
Periodico
Settore Disciplinare:
Science Citation Index Expanded
Science Citation Index Expanded
Science Citation Index Expanded
Citazioni:
15
Recensione:
Indirizzi per estratti:
Citazione:
K.F. Janning et al., "HYDROLYSIS AND DEGRADATION OF FILTRATED ORGANIC PARTICULATES IN A BIOFILM REACTOR UNDER ANOXIC AND AEROBIC CONDITIONS", Water science and technology, 36(1), 1997, pp. 279-286

Abstract

Two experiments were performed in order to investigate the anoxic andthe aerobic degradation of filtrated organic matter in a biofilter. In submerged lab: scale reactors with Biocarbone media as filter material, accumulated particulate organic matter from pre-settled wastewaterserved as the only carbon source for anoxic and aerobic degradation respectively. In order to utilise the accumulated organic matter, the bacteria in the biofilm had to produce extracellular hydrolytic enzymesfor the hydrolysis process. In the first experiment with anoxic degradation, a significant denitrification occurred. The maximum nitrate removal rate, with particulate organic matter as carbon source, was found to I g NO3-N/(. )(-)(m(2)d), declining exponentially as tau(ANO3-N) =1.04 e(-4t) g NO3-N/(m(2)d) (t = days). A significant release of soluble organic matter (< 0.45 mu m) and production of inorganic carbon tothe bulk liquid was observed as an indication of hydrolysis taking place. The second experiment was designed as a series of on-line OUR batch experiments in a biofilm reactor with recirculation, in order to investigate further the degradation of particulate organic matter. Afterthe biofilm had been starved in order to remove the original organic matter, particulate organic matter was added and the degradation kinetics recorded. The initial removal rate was high, r(A.O2) = 2.1 g O-2/(m(2)d) though fast declining towards endogenous respiration. The respiration ratio between removed oxygen and produced carbon dioxide was declining from 1.3 to 1.0 g O-2/g CO2 during the degradation of organic particulates. The respiration ratio during endogenous respiration was determined to be 0.7 g O-2/g CO2 indicating a thorough mineralisation of biomass. (C) 1997 IAWQ. Published by Elsevier Science Ltd.

ASDD Area Sistemi Dipartimentali e Documentali, Università di Bologna, Catalogo delle riviste ed altri periodici
Documento generato il 03/07/20 alle ore 00:48:22