Biodegradation of pretreated olive mill effluent in mixture with a domestic sewage or compatible wastewater stream

Khaligh, Sooddeh Salimi; Yağcı, Nevin; Ubay‐Cokgor, Emine; Karaca, Cansu; Allı, Buşra; Orhon, Derin; Sözen, Seval

doi:10.1002/jctb.5114

Cited by 7 publications

(1 citation statement)

References 35 publications

(52 reference statements)

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“…Kinetic coefficients and state variables, determined by means of model calibration, are listed in Table . It is important to note that peptone mixture is a synthetic substrate exhibiting similar characteristics and COD fractionation to domestic sewage Run 1 provided a close match with the results of another study using the peptone mixture in a similar experimental setup sustained at sludge age of 10 d, as also given in Table …”

Section: Resultssupporting

confidence: 76%

Respirometric anatomy of the OSA process: microbial basis of enhanced sludge reduction mechanism

Yağcı

Pala‐Özkök

Sarıalioğlu

et al. 2018

J of Chemical Tech & Biotech

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BACKGROUND: Extensive research effort has been devoted to the performance of the OSA system. Despite all studies focused on the assessment of observed sludge yield values, their explanations of the mechanisms causing sludge reduction remained highly speculative. RESULTS:A laboratory-scale OSA system fed with peptone mixture was operated together with a system consisting only of a sequencing batch reactor. The experimental program focused on the assessment of the nature and characteristics of all streams by calibrating an appropriate model by oxygen uptake rate profiles obtained under different conditions. Results indicated that the interchange stream contained a significant fraction of heterotrophic biomass. Therefore, interpretations of the microbial functions in the OSA/oxic reactor should account for active heterotrophic input through the interchange stream. As also justified by corresponding mass balance expressions, the OSA/oxic reactor sustained a substantially higher active biomass concentration as compared with the control reactor. In this way, the relative magnitude of the endogenous decay was significantly increased with respect to microbial growth and the observed experimental results totally accounting for the excess sludge reduction in the tested lab-scale OSA system. CONCLUSION:The experimental results in this study provided conclusive proof that enhanced endogenous decay due to higher active biomass level sustained in the OSA/oxic reactor should be regarded as the major cause of excess sludge reduction in the OSA system. Conceptual approachThe study primarily intends to offer a novel perspective for the understanding and interpretation of the microbial mechanisms related to process performance. The OSA system is commonly defined as an activated sludge unit incorporating a side-stream anaerobic reactor. This definition is not correct because it implies J Chem Technol Biotechnol 2018; 93: 3462-3471

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Section: Resultssupporting

confidence: 76%

Respirometric anatomy of the OSA process: microbial basis of enhanced sludge reduction mechanism

Yağcı

Pala‐Özkök

Sarıalioğlu

et al. 2018

J of Chemical Tech & Biotech

Self Cite

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Efficient adsorption of oil in water by hydrophobic nonwoven fabrics coated with cross‐linked polydivinylbenzene fibers

Zhu

Wang

Liu

et al. 2018

J of Chemical Tech & Biotech

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Background Oil pollution of water causes extensive damage to the environment and human health. Adsorption techniques are environmentally friendly and relatively feasible to treat oil contamination and reclaim oil resources, and it is essential to develop adsorbents that have high adsorption capacity for oil which can be recycled and regenerated conveniently to save money and resources. Results Hydrophobic nonwoven fabrics coated with polydivinylbenzene nanofibres (HNF‐PDVB) were constructed by a one‐step cation polymerization reaction. The results showed that the optimal concentration of OTS (octadecylsilane) for the modification of nonwoven fibers was 1.22 mL L–1of n‐hexane. The HNF‐PDVB showed relatively good performance in adsorbing oil from water, with adsorption capacity as high as 7.5 g g–1. Freundlich and Dubinin–Radushkevic isotherms fitted well with the experimental data. The kinetic data fitted better to the pseudo‐second‐order and intraparticle diffusion models, and the parameters indicated that the adsorption by HNF‐PDVB involved macropores that contributed to the rapid and high‐capacity adsorption, as well as micropores that resulted in the diffusion of oil in the nanofibres. Thermodynamics studies revealed that the adsorption was spontaneous and endothermic, with an increasing performance when the temperature rose from 10 to 50 °C. The material possessed good stability and the adsorption capacity reduced from 7.5 g g–1 to 6.6 g g–1 after ten cycles of repeated use, recovered by squeezing and ethanol extraction. Conclusion This work demonstrates that the new hydrophobic nonwoven fabrics have the potential to be used for elimination of pollution from oil wastewater. © 2018 Society of Chemical Industry

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What influences the urban sewage discharge in China? The effect of diversified factors on the urban sewage discharge in different regions of China

Tong

Wei

Zhang

et al. 2021

Environ Dev Sustain

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Biodegradation of pretreated olive mill effluent in mixture with a domestic sewage or compatible wastewater stream

Cited by 7 publications

References 35 publications

Respirometric anatomy of the OSA process: microbial basis of enhanced sludge reduction mechanism

Respirometric anatomy of the OSA process: microbial basis of enhanced sludge reduction mechanism

Efficient adsorption of oil in water by hydrophobic nonwoven fabrics coated with cross‐linked polydivinylbenzene fibers

What influences the urban sewage discharge in China? The effect of diversified factors on the urban sewage discharge in different regions of China

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