Performance evaluation of column-SBR in paper and pulp wastewater treatment: Optimization and bio-kinetics

Nadeem A. Khan; Saif Ullah Khan; Dar Tafazul Islam; Sirajuddin Ahmed; Izharul Haq Farooqi; Mohamed Hasnain Isa; Arshad Hussain; Fazlollah Changani; Astha Dhingra

doi:10.5004/dwt.2019.23775

Performance evaluation of column-SBR in paper and pulp wastewater treatment: Optimization and bio-kinetics

Nadeem A. Khan^*
, Saif Ullah Khan
, Dar Tafazul Islam
, Sirajuddin Ahmed
, Izharul Haq Farooqi
, Mohamed Hasnain Isa
, Arshad Hussain
, Fazlollah Changani
, Astha Dhingra

^*Corresponding author for this work

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

49 Scopus citations

Abstract

Pulp and paper industry generates effluent containing harmful compounds like chlorophenols which are difficult to biodegrade. It requires an appropriate treatment in order to meet the stringent discharge standards. In this work, a bench scale column type sequential batch reactor (SBR) was employed for treating pulp and paper wastewater. The performance of SBR, seeded with acclimatized sludge was optimized and analysed for maximizing COD and AOX removal. The process parameters viz; pH, initial COD, cycle time and MLSS were optimized and their effects on response variables: COD removal efficiency, AOX removal efficiency and SVI were investigated. The optimum conditions were determined to be: Initial COD 1200 mg/l, pH 7.5, MLSS 2100 mg/L and cycle time 15 h, for 73.2% COD removal, 57.6% AOX removal and 122.8 mL/g SVI. The complex compounds were broken down into numerous intermediate compounds thus enhancing COD and AOX removal with low SVI. The bio-kinetics of the optimized system was also analyzed in order to understand the bacterial nature towards substrate utilization. Two kinetic models namely Grau second-order model and Stover–Kincannon model were found to be fitwell with high correlation coefficients (R² = 0.99) for COD as well as AOX.

Original language	English
Pages (from-to)	204-219
Number of pages	16
Journal	Desalination and Water Treatment
Volume	156
DOIs	https://doi.org/10.5004/dwt.2019.23775
State	Published - Jul 2019
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2019 Desalination Publications. All rights reserved.

UN SDGs

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

SDG 6 Clean Water and Sanitation
SDG 9 Industry, Innovation, and Infrastructure

Keywords

AOX removal
Bio-kinetics
CCD
COD
Paper and pulp
RSM
SBR

ASJC Scopus subject areas

Water Science and Technology
Ocean Engineering
Pollution

Access to Document

10.5004/dwt.2019.23775

Cite this

@article{7f16cf422d44469e9dff61dc4995d438,

title = "Performance evaluation of column-SBR in paper and pulp wastewater treatment: Optimization and bio-kinetics",

abstract = "Pulp and paper industry generates effluent containing harmful compounds like chlorophenols which are difficult to biodegrade. It requires an appropriate treatment in order to meet the stringent discharge standards. In this work, a bench scale column type sequential batch reactor (SBR) was employed for treating pulp and paper wastewater. The performance of SBR, seeded with acclimatized sludge was optimized and analysed for maximizing COD and AOX removal. The process parameters viz; pH, initial COD, cycle time and MLSS were optimized and their effects on response variables: COD removal efficiency, AOX removal efficiency and SVI were investigated. The optimum conditions were determined to be: Initial COD 1200 mg/l, pH 7.5, MLSS 2100 mg/L and cycle time 15 h, for 73.2\% COD removal, 57.6\% AOX removal and 122.8 mL/g SVI. The complex compounds were broken down into numerous intermediate compounds thus enhancing COD and AOX removal with low SVI. The bio-kinetics of the optimized system was also analyzed in order to understand the bacterial nature towards substrate utilization. Two kinetic models namely Grau second-order model and Stover–Kincannon model were found to be fitwell with high correlation coefficients (R2 = 0.99) for COD as well as AOX.",

keywords = "AOX removal, Bio-kinetics, CCD, COD, Paper and pulp, RSM, SBR",

author = "Khan, \{Nadeem A.\} and Khan, \{Saif Ullah\} and Islam, \{Dar Tafazul\} and Sirajuddin Ahmed and Farooqi, \{Izharul Haq\} and Isa, \{Mohamed Hasnain\} and Arshad Hussain and Fazlollah Changani and Astha Dhingra",

year = "2019",

month = jul,

doi = "10.5004/dwt.2019.23775",

language = "English",

volume = "156",

pages = "204--219",

journal = "Desalination and Water Treatment",

issn = "1944-3994",

publisher = "Elsevier BV",

}

TY - JOUR

T1 - Performance evaluation of column-SBR in paper and pulp wastewater treatment

T2 - Optimization and bio-kinetics

AU - Khan, Nadeem A.

AU - Khan, Saif Ullah

AU - Islam, Dar Tafazul

AU - Ahmed, Sirajuddin

AU - Farooqi, Izharul Haq

AU - Isa, Mohamed Hasnain

AU - Hussain, Arshad

AU - Changani, Fazlollah

AU - Dhingra, Astha

PY - 2019/7

Y1 - 2019/7

N2 - Pulp and paper industry generates effluent containing harmful compounds like chlorophenols which are difficult to biodegrade. It requires an appropriate treatment in order to meet the stringent discharge standards. In this work, a bench scale column type sequential batch reactor (SBR) was employed for treating pulp and paper wastewater. The performance of SBR, seeded with acclimatized sludge was optimized and analysed for maximizing COD and AOX removal. The process parameters viz; pH, initial COD, cycle time and MLSS were optimized and their effects on response variables: COD removal efficiency, AOX removal efficiency and SVI were investigated. The optimum conditions were determined to be: Initial COD 1200 mg/l, pH 7.5, MLSS 2100 mg/L and cycle time 15 h, for 73.2% COD removal, 57.6% AOX removal and 122.8 mL/g SVI. The complex compounds were broken down into numerous intermediate compounds thus enhancing COD and AOX removal with low SVI. The bio-kinetics of the optimized system was also analyzed in order to understand the bacterial nature towards substrate utilization. Two kinetic models namely Grau second-order model and Stover–Kincannon model were found to be fitwell with high correlation coefficients (R2 = 0.99) for COD as well as AOX.

AB - Pulp and paper industry generates effluent containing harmful compounds like chlorophenols which are difficult to biodegrade. It requires an appropriate treatment in order to meet the stringent discharge standards. In this work, a bench scale column type sequential batch reactor (SBR) was employed for treating pulp and paper wastewater. The performance of SBR, seeded with acclimatized sludge was optimized and analysed for maximizing COD and AOX removal. The process parameters viz; pH, initial COD, cycle time and MLSS were optimized and their effects on response variables: COD removal efficiency, AOX removal efficiency and SVI were investigated. The optimum conditions were determined to be: Initial COD 1200 mg/l, pH 7.5, MLSS 2100 mg/L and cycle time 15 h, for 73.2% COD removal, 57.6% AOX removal and 122.8 mL/g SVI. The complex compounds were broken down into numerous intermediate compounds thus enhancing COD and AOX removal with low SVI. The bio-kinetics of the optimized system was also analyzed in order to understand the bacterial nature towards substrate utilization. Two kinetic models namely Grau second-order model and Stover–Kincannon model were found to be fitwell with high correlation coefficients (R2 = 0.99) for COD as well as AOX.

KW - AOX removal

KW - Bio-kinetics

KW - CCD

KW - COD

KW - Paper and pulp

KW - RSM

KW - SBR

UR - https://www.scopus.com/pages/publications/85067926844

U2 - 10.5004/dwt.2019.23775

DO - 10.5004/dwt.2019.23775

M3 - Article

AN - SCOPUS:85067926844

SN - 1944-3994

VL - 156

SP - 204

EP - 219

JO - Desalination and Water Treatment

JF - Desalination and Water Treatment

ER -

Performance evaluation of column-SBR in paper and pulp wastewater treatment: Optimization and bio-kinetics

Abstract

Bibliographical note

UN SDGs

Keywords

ASJC Scopus subject areas

Access to Document

Fingerprint

Cite this