Nalazite se na CroRIS probnoj okolini. Ovdje evidentirani podaci neće biti pohranjeni u Informacijskom sustavu znanosti RH. Ako je ovo greška, CroRIS produkcijskoj okolini moguće je pristupi putem poveznice www.croris.hr
izvor podataka: crosbi !

Effects of Hydraulic Residence Time and Mixing on Wastewater Treatment in a Membrane Bioreactor (CROSBI ID 111078)

Prilog u časopisu | izvorni znanstveni rad | međunarodna recenzija

Čurlin, Mirjana ; Matić, Mile ; Matošić, Marin ; Mijatović, Ivan ; Kurtanjek, Želimir Effects of Hydraulic Residence Time and Mixing on Wastewater Treatment in a Membrane Bioreactor // Chemical and biochemical engineering quarterly, 18 (2004), 2; 97-104

Podaci o odgovornosti

Čurlin, Mirjana ; Matić, Mile ; Matošić, Marin ; Mijatović, Ivan ; Kurtanjek, Želimir

engleski

Effects of Hydraulic Residence Time and Mixing on Wastewater Treatment in a Membrane Bioreactor

Studied are effects of hydraulic residence time distribution (HRTD) and degree of mixing on aerobic wastewater treatment in a membrane bioreactor. Experimentally are determined HRTD and the life expectancy functions in a 40 L Zenon (ZW 10) hollow-fibber submerged microfiltration membrane bioreactor at liquid flow rate range of 7, 4 – 36 L h-1 and gas flow rate range 1, 7 – 5, 1 m3 h-1. The HRTD functions are modelled by a series of two parallely connected CSTR corresponding to slow and fast liquid flow. The model approximates the HRTD functions with an average relative error of 5%. A model for prediction of average liquid residence time based on superficial liquid and gas velocities is developed. From HRT functions are evaluated the life expectancy functions  of dissolved biodegradable substrates and oxygen in liquid phase. Parameters from Activated Sludge Model No. 1 (ASM1) for aerobic degradation by heterothropic biomass are applied for computer simulation. Concentration of soluble biodegradable substances in the outlet stream is the measure of effects of HRT and mixing. Applied are the following models: ideal mixing, segregated flow, maximum mixidness, and the CSTR network. With reference to the network model, determined are relative differences of outlet concentration of biodegradable substrate 59%, 86% and 32% corresponding to the flow models relative to the CSTR network model.

HRT ; membrane bioreactor ; degree of mixing ; waste water treatment

nije evidentirano

nije evidentirano

nije evidentirano

nije evidentirano

nije evidentirano

nije evidentirano

Podaci o izdanju

18 (2)

2004.

97-104

objavljeno

0352-9568

Povezanost rada

Biotehnologija, Kemijsko inženjerstvo

Indeksiranost