Tugce Katipoglu scite author profile

This paper explores the merit of the oxygen uptake rate (OUR) profile obtained by means of respirometry as the basic mechanistic instrument for evaluating activated sludge inhibition. Experimental OUR data are generated using the synthetic peptone-based substrate and inhibition is tested with 60 mg/L hexavalent chromium and 33 mg/L nickel additions, corresponding to EC50 levels determined using the standard ISO 8192 procedure. Experimental results are evaluated by model calibration using ASM1 modified for dual hydrolysis and ASM3 modified for simultaneous growth. Model evaluations indicate that inhibition affects not only growth, but also other significant microbial mechanisms such as substrate storage and hydrolysis, leading to conclude that the proposed approach will enable to visualize the overall impact of the inhibitory compound on every stage of substrate biodegradation, through inspection and evaluation of the entire OUR profile.

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Biodegradation kinetics of peptone and 2,6-dihydroxybenzoic acid by acclimated dual microbial culture

Çokgör

İnsel

Katipoglu

et al. 2011

Bioresource Technology

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Fate of 2,6-dihydroxybenzoic acid and its inhibitory impact on the biodegradation of peptone under aerobic conditions

Orhon

Çokgör

Katipoglu

et al. 2010

Bioresource Technology

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Response of mixed microbial culture to 2,6-dihydroxybenzoic acid and peptone mixture at low sludge age—effect of culture history

Katipoglu

Çokgör

İnsel

et al. 2010

Journal of Environmental Science and Health, Part A

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The study evaluated the response of an enriched microbial culture on 2,6-dihydroxybenxoic acid (2,6-DHBA) and peptone mixture at low sludge age (theta(X)) under aerobic conditions. It emphasized the effect of culture history by comparing the response of the microbial culture sustained at identical conditions but at two different theta(X) of 2 and 10 days. The fate and impact of continuous 2,6-DHBA addition were evaluated by means of changes induced on the oxygen uptake rate profiles. The acute impact of 2,6-DHBA drastically changed with the culture history. It only inhibited the utilization of the readily biodegradable COD fraction but maintained the overall stoichiometry of substrate removal at a theta(X) of 2 days, while blocking microbial activity with only partial substrate utilization when the theta(X) was 10 days. After four days of continuous 2,6-DHBA feeding, the microbial culture was acclimated providing simultaneous removal for peptone and 2,6-DHBA. The acclimation period was apparently a function of the theta(X) and it was shorter than 10 days. Evaluation of the oxygen uptake rate profiles indicated that acclimation resulted in the development of a dual microbial community with the selective growth of another group of biomass equipped with the enzymatic tools for utilizing 2,6-DHBA as an organic carbon source.

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Tugce Katipoglu

Validity of Monod kinetics at different sludge ages – Peptone biodegradation under aerobic conditions

Unified Basis for the Respirometric Evaluation of Inhibition for Activated Sludge

Biodegradation kinetics of peptone and 2,6-dihydroxybenzoic acid by acclimated dual microbial culture

Fate of 2,6-dihydroxybenzoic acid and its inhibitory impact on the biodegradation of peptone under aerobic conditions

Response of mixed microbial culture to 2,6-dihydroxybenzoic acid and peptone mixture at low sludge age—effect of culture history

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