Abstract
This study evaluated the fate of chemical oxygen demand (COD) fractions of an organized industrial district effluent treated with pilot membrane bioreactor (MBR) system. A series of respirometric analyses were performed on raw wastewater together with 450 nm, 100 kDa and 1 kDa filtered samples obtained from particle size distribution (PSD) experiments. The PSD analysis revealed that more than 300 mg/L of the influent COD accumulated in the lowest size range (<2 nm), accounting for 49–52 % of the total COD. The bulk (64 %) of the influent COD consisted of soluble hydrolysable COD (SH1). The hydrolysis rates for SH1 (0.80–1.28 1/day) were slightly below the levels suggested for domestic wastewaters, indicating the presence of inhibitory compounds in industrial wastewaters. The COD removal efficiency of MBR pilot was found as 85 %; however, 43 % of effluent COD (106 mg/L) still included rapidly hydrolysable organics in the size bracket of 5–30 nm. In this respect, the COD fractions for activated sludge process models used for MBR applications require a new-insight to correctly reflect organic matter balances in the treatment system.
Original language | English |
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Pages (from-to) | 257-266 |
Number of pages | 10 |
Journal | Process Safety and Environmental Protection |
Volume | 146 |
DOIs | |
Publication status | Published - Feb 2021 |
Bibliographical note
Publisher Copyright:© 2020 Institution of Chemical Engineers
Funding
Demirtaş Organized Industrial District is kindly acknowledged for conducting the effluent analyses of MBR plant and sharing the operational data of full-scale wastewater treatment plant. This project is financially supported by BYR Chemical Ltd . Demirta? Organized Industrial District is kindly acknowledged for conducting the effluent analyses of MBR plant and sharing the operational data of full-scale wastewater treatment plant. This project is financially supported by BYR Chemical Ltd.
Funders | Funder number |
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BYR Chemical Ltd | |
BYR Chemical Ltd. |
Keywords
- COD fractionation
- Hydrolysable COD
- Membrane bioreactor
- Organized industrial district
- Particle size distribution
- Textile wastewater