Enhancement of nutrient removal performance of activated sludge with a novel hybrid biofilm process

G. Güneş; E. Hallaç; M. Özgan; A. Ertürk; D. Okutman Taş; E. Çokgor; D. Güven; I. Takacs; A. Erdinçler; G. Insel

doi:10.1007/s00449-018-2042-9

Enhancement of nutrient removal performance of activated sludge with a novel hybrid biofilm process

G. Güneş, E. Hallaç, M. Özgan, A. Ertürk, D. Okutman Taş, E. Çokgor, D. Güven, I. Takacs, A. Erdinçler, G. Insel^*

^*Corresponding author for this work

Department of Environmental Engineering

Research output: Contribution to journal › Article › peer-review

17 Citations (Scopus)

Abstract

The aim of this study was to investigate the efficacy of a hybrid biofilm pilot-scale treatment plant, designed with a novel configuration by the integration of a fixed-film system, to improve nitrogen removal. The pilot-scale system was established at a wastewater treatment plant in Istanbul and operated based on stream separation following a process consisting of Bio-P and primary sedimentation units in which carbonaceous compounds were entrapped/incorporated in settled biomass. The ammonia-rich supernatant was directed to a moving bed biofilm (MBBR) nitrification tank to obtain an efficient nitrification with the reduced organic loading after the primary sedimentation. The conventional activated sludge process, for which the net specific growth rate (μ^ _NH- b_NH) was measured to be 0.26 day⁻¹ at 15 °C, exhibited a low nitrification capacity. However, the pilot-scale hybrid biofilm system secured nitrification performance up to 1.8 gN/m²/day ammonia loading, providing a competitive advantage over the conventional single sludge systems. The proposed hybrid configuration enables removal efficiencies of 80% and 85% for total nitrogen and phosphorus. It was possible to entrap organic matter by mixing 30% of return activated sludge (RAS) with raw wastewater. Simulation-based design study showed that the use of the hybrid biofilm system reduces the environmental footprint and aeration requirement of the nutrient removal by about 50% and 19%, respectively. Economic analyses highlighting the benefit of hybrid biofilm over conventional BNR system are illustrated.

Original language	English
Pages (from-to)	379-390
Number of pages	12
Journal	Bioprocess and Biosystems Engineering
Volume	42
Issue number	3
DOIs	https://doi.org/10.1007/s00449-018-2042-9
Publication status	Published - 7 Mar 2019

Bibliographical note

Publisher Copyright:
© 2018, Springer-Verlag GmbH Germany, part of Springer Nature.

Funding

Acknowledgements This study was supported by the Research and Development Fund of Istanbul Technical University (project no. 39344) and ITUNOVA TTO. The authors would like to thank Endress Hauser for providing online sensor, and Durco Turkey for sludge pump supply and maintenance. The support of the Research and Development Department of Istanbul Water and Sewerage Administration (ISKI) is kindly acknowledged. This study was supported by the Research and Development Fund of Istanbul Technical University (project no. 39344) and ITUNOVA TTO. The authors would like to thank Endress Hauser for providing online sensor, and Durco Turkey for sludge pump supply and maintenance. The support of the Research and Development Department of Istanbul Water and Sewerage Administration (ISKI) is kindly acknowledged.

Funders	Funder number
ISKI
ITUNOVA TTO
Research and Development Department of Istanbul Water and Sewerage Administration
Istanbul Teknik Üniversitesi	39344

Keywords

Contact denitrification
Kinetics
Moving bed biofilm reactor
Nitrification rate
Respirometry

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1007/s00449-018-2042-9

Cite this

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abstract = "The aim of this study was to investigate the efficacy of a hybrid biofilm pilot-scale treatment plant, designed with a novel configuration by the integration of a fixed-film system, to improve nitrogen removal. The pilot-scale system was established at a wastewater treatment plant in Istanbul and operated based on stream separation following a process consisting of Bio-P and primary sedimentation units in which carbonaceous compounds were entrapped/incorporated in settled biomass. The ammonia-rich supernatant was directed to a moving bed biofilm (MBBR) nitrification tank to obtain an efficient nitrification with the reduced organic loading after the primary sedimentation. The conventional activated sludge process, for which the net specific growth rate (μ^ NH- bNH) was measured to be 0.26 day−1 at 15 °C, exhibited a low nitrification capacity. However, the pilot-scale hybrid biofilm system secured nitrification performance up to 1.8 gN/m2/day ammonia loading, providing a competitive advantage over the conventional single sludge systems. The proposed hybrid configuration enables removal efficiencies of 80% and 85% for total nitrogen and phosphorus. It was possible to entrap organic matter by mixing 30% of return activated sludge (RAS) with raw wastewater. Simulation-based design study showed that the use of the hybrid biofilm system reduces the environmental footprint and aeration requirement of the nutrient removal by about 50% and 19%, respectively. Economic analyses highlighting the benefit of hybrid biofilm over conventional BNR system are illustrated.",

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Enhancement of nutrient removal performance of activated sludge with a novel hybrid biofilm process

Abstract

Bibliographical note

Funding

Keywords

UN SDGs

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