Yildiz, G.Insel, G.Cokgor, E. U.Orhon, D.2024-06-122024-06-1220070273-12231996-9732https://doi.org/10.2166/wst.2007.312https://hdl.handle.net/20.500.14551/180107th IWA International Symposium on Waste Management Problems in Agro-Industries -- SEP 27-29, 2006 -- Amsterdam, NETHERLANDSThe paper evaluates biodegradation characteristics of wastewaters generated from acrylic fibre-based carpet processing and manufacturing. It involves detailed characterisation, respirometric modelling and kinetic description of dyeing and softening wastewater streams and the composite effluent. The wastewaters exhibit different COD content and fractionation. The resulting composite effluent has a total COD of 775 mgL(-1), predominantly soluble and with a biodegradable fraction of 86%. In respirometric studies, the OUR profiles can only be calibrated with a dual hydrolysis model with rates significantly slower compared to domestic sewage and other textile plant effluents. Kinetic information derived from the experiments is applied for the conceptual evaluation of the treatability of the composite wastewater using two different continuous-flow activated sludge configurations.en10.2166/wst.2007.312info:eu-repo/semantics/closedAccessAcrylic FibreCarpet ManufacturingCOD FractionationModelingTextile WastewatersActivated-SludgeWaste-WaterCodHydrolysisConference Object551099106Q2WOS:0002468783000132-s2.0-3425002969017564375Q2