Plant-wide (BSM2) evaluation of reject water treatment with a SHARON-Anammox process

Volcke, E.I.P; Gernaey, K.V; Vrecko, D; Jeppsson, Ulf; van Loosdrecht, M.C.M; Vanrolleghem, P.A

Plant-wide (BSM2) evaluation of reject water treatment with a SHARON-Anammox process

Mark

Volcke, E.I.P ; Gernaey, K.V ; Vrecko, D ; Jeppsson, Ulf ^LU ; van Loosdrecht, M.C.M and Vanrolleghem, P.A (2006) In Water Science and Technology 54(8). p.93-100

Abstract: In wastewater treatment plants (WWTPs) equipped with sludge digestion and dewatering systems, the reject water originating from these facilities contributes significantly to the nitrogen load of the activated sludge tanks, to which it is typically recycled. In this paper, the impact of reject water streams on the performance of a WWTP is assessed in a simulation study, using the Benchmark Simulation Model no. 2 (BSM2), that includes the processes describing sludge treatment and in this way allows for plant-wide evaluation. Comparison of performance of a WWTP without reject water with a WWTP where reject water is recycled to the primary clarifier, i.e. the BSM2 plant, shows that the ammonium load of the influent to the primary clarifier is... (More); In wastewater treatment plants (WWTPs) equipped with sludge digestion and dewatering systems, the reject water originating from these facilities contributes significantly to the nitrogen load of the activated sludge tanks, to which it is typically recycled. In this paper, the impact of reject water streams on the performance of a WWTP is assessed in a simulation study, using the Benchmark Simulation Model no. 2 (BSM2), that includes the processes describing sludge treatment and in this way allows for plant-wide evaluation. Comparison of performance of a WWTP without reject water with a WWTP where reject water is recycled to the primary clarifier, i.e. the BSM2 plant, shows that the ammonium load of the influent to the primary clarifier is 28% higher in the case of reject water recycling. This results in violation of the effluent total nitrogen limit. In order to relieve the main wastewater treatment plant, reject water treatment with a combined SHARON-Anammox process seems a promising option. The simulation results indicate that significant improvements of the effluent quality of the main wastewater treatment plant can be realized. An economic evaluation of the different scenarios is performed using an Operating Cost Index (OCI). (Less)

Please use this url to cite or link to this publication: https://lup.lub.lu.se/record/609957

author

Volcke, E.I.P ; Gernaey, K.V ; Vrecko, D ; Jeppsson, Ulf ^LU ; van Loosdrecht, M.C.M and Vanrolleghem, P.A

organization

Industrial Electrical Engineering and Automation

publishing date

2006

type

Contribution to journal

publication status

published

subject

Other Electrical Engineering, Electronic Engineering, Information Engineering

keywords

nitrogen removal, SHARON, Anammox, simulation, reject water treatment, plant-wide modelling, benchmarking, BSM2, wastewater treatment

in

Water Science and Technology

volume

54

issue

8

pages

93 - 100

publisher

IWA Publishing

external identifiers

wos:000242677200012
scopus:33845328080

ISSN

0273-1223

DOI

10.2166/wst.2006.822

language

English

LU publication?

yes

id

140a25ca-04e9-40a7-b5aa-390456e274a8 (old id 609957)

date added to LUP

2016-04-01 16:09:54

date last changed

2022-01-28 17:44:36

@article{140a25ca-04e9-40a7-b5aa-390456e274a8,
  abstract     = {{In wastewater treatment plants (WWTPs) equipped with sludge digestion and dewatering systems, the reject water originating from these facilities contributes significantly to the nitrogen load of the activated sludge tanks, to which it is typically recycled. In this paper, the impact of reject water streams on the performance of a WWTP is assessed in a simulation study, using the Benchmark Simulation Model no. 2 (BSM2), that includes the processes describing sludge treatment and in this way allows for plant-wide evaluation. Comparison of performance of a WWTP without reject water with a WWTP where reject water is recycled to the primary clarifier, i.e. the BSM2 plant, shows that the ammonium load of the influent to the primary clarifier is 28% higher in the case of reject water recycling. This results in violation of the effluent total nitrogen limit. In order to relieve the main wastewater treatment plant, reject water treatment with a combined SHARON-Anammox process seems a promising option. The simulation results indicate that significant improvements of the effluent quality of the main wastewater treatment plant can be realized. An economic evaluation of the different scenarios is performed using an Operating Cost Index (OCI).}},
  author       = {{Volcke, E.I.P and Gernaey, K.V and Vrecko, D and Jeppsson, Ulf and van Loosdrecht, M.C.M and Vanrolleghem, P.A}},
  issn         = {{0273-1223}},
  keywords     = {{nitrogen removal; SHARON; Anammox; simulation; reject water treatment; plant-wide modelling; benchmarking; BSM2; wastewater treatment}},
  language     = {{eng}},
  number       = {{8}},
  pages        = {{93--100}},
  publisher    = {{IWA Publishing}},
  series       = {{Water Science and Technology}},
  title        = {{Plant-wide (BSM2) evaluation of reject water treatment with a SHARON-Anammox process}},
  url          = {{http://dx.doi.org/10.2166/wst.2006.822}},
  doi          = {{10.2166/wst.2006.822}},
  volume       = {{54}},
  year         = {{2006}},
}

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Plant-wide (BSM2) evaluation of reject water treatment with a SHARON-Anammox process