Modelling of Micropollutant Fate in Hybrid Growth Systems: Model Concepts, Peterson Matrix, and Application to a Lab-Scale Pilot Plant

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Modelling of Micropollutant Fate in Hybrid Growth Systems: Model Concepts, Peterson Matrix, and Application to a Lab-Scale Pilot Plant Publisher Pubmed

Mohammadi F^{1, 2} ; Bina B^{1, 2} ; Rahimi S³ ; Janati M⁴

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1. Department of Environmental Health Engineering, School of Health, Isfahan University of Medical Sciences, Isfahan, Iran
2. Environment Research Center, Research Institute for Primordial Prevention of Non-Communicable Disease, Isfahan University of Medical Sciences, Isfahan, Iran
3. Department of Environmental Health, Islamic Azad University, Firoozabad branch, Firoozabad, Iran
4. Department of Civil Engineering, Lakehead University, Thunder Bay, Canada

Source: Environmental Science and Pollution Research Published:2022

Abstract

Modelling the fate of micropollutants in different wastewater treatment processes is of present concern. Moreover, during the last few years, there has been an increasing interest in the development of hybrid reactors which contain both suspended biomass and biofilm. Here, a new model developed which tries to determine the fate of micropollutants in hybrid reactors such as moving bed biofilm reactor (MBBR) and called the ASM-biofilm-MPs model considered the main mechanisms leading to the micropollutant removal (sorption/desorption, biodegradation, cometabolism) in hybrid reactors. This dynamic model describes the fate of micropollutants in a hybrid reactor using first-order kinetics for biotransformation and sorption/desorption equations. Also, it considered the reactions for carbon oxidation, nitrification, and denitrification in attached and suspended biomass under aerobic conditions. The mathematical model consists of three connected models for the simulation of micropollutants, suspended biomass, and biofilm. Biochemical conversions are evaluated according to the Activated Sludge Model No. 1 (ASM1) for both attached and suspended biomass. The model is applied for a laboratory MBBR, which fed with synthetic wastewater containing 4-nonylphenol (4-NP) as micropollutant, and accurately describes the experimental concentrations of COD, attached and suspended biomass, nitrogen, and 4-NP micropollutant obtained during 180 days working at different loadings. The differences between simulations and experiments in all operational periods for sCOD, NH4–N, NO3–N, and attached and suspended biomass concentrations were less than 15%, 10%, 10%, 5% and 5%, respectively. Finally, the contribution of adsorption and biodegradation mechanisms in the fate of 4-NP was calculated, when 4-NP concentration is set to 1 µg/L (biodegradation = 86.5%, sorption = 5%) and 50 µg/L (biodegradation = 55.9%, sorption = 34.7%). © 2022, The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.

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Style	Citing Format
MLA	Mohammadi F, et al.. "Modelling of Micropollutant Fate in Hybrid Growth Systems: Model Concepts, Peterson Matrix, and Application to a Lab-Scale Pilot Plant." Environmental Science and Pollution Research, vol. 29, no. 45, 2022, pp. 68707-68723.
APA	Mohammadi F, Bina B, Rahimi S, Janati M (2022). Modelling of Micropollutant Fate in Hybrid Growth Systems: Model Concepts, Peterson Matrix, and Application to a Lab-Scale Pilot Plant. Environmental Science and Pollution Research, 29(45), 68707-68723.
Chicago	Mohammadi F, Bina B, Rahimi S, Janati M. "Modelling of Micropollutant Fate in Hybrid Growth Systems: Model Concepts, Peterson Matrix, and Application to a Lab-Scale Pilot Plant." Environmental Science and Pollution Research 29, no. 45 (2022): 68707-68723.
Harvard	Mohammadi F et al. (2022) 'Modelling of Micropollutant Fate in Hybrid Growth Systems: Model Concepts, Peterson Matrix, and Application to a Lab-Scale Pilot Plant', Environmental Science and Pollution Research, 29(45), pp. 68707-68723.
Vancouver	Mohammadi F, Bina B, Rahimi S, Janati M. Modelling of Micropollutant Fate in Hybrid Growth Systems: Model Concepts, Peterson Matrix, and Application to a Lab-Scale Pilot Plant. Environmental Science and Pollution Research. 2022;29(45):68707-68723.
BibTex	@article{ author = {Mohammadi F and Bina B and Rahimi S and Janati M}, title = {Modelling of Micropollutant Fate in Hybrid Growth Systems: Model Concepts, Peterson Matrix, and Application to a Lab-Scale Pilot Plant}, journal = {Environmental Science and Pollution Research}, volume = {29}, number = {45}, pages = {68707-68723}, year = {2022} }
RIS	TY - JOUR AU - Mohammadi F AU - Bina B AU - Rahimi S AU - Janati M TI - Modelling of Micropollutant Fate in Hybrid Growth Systems: Model Concepts, Peterson Matrix, and Application to a Lab-Scale Pilot Plant JO - Environmental Science and Pollution Research VL - 29 IS - 45 SP - 68707 EP - 68723 PY - 2022 ER -

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