Packed bed reactor for degradation of simulated cyanide-containing wastewater

Virender Kumar; Vijay Kumar; Tek Chand Bhalla

doi:10.1007/s13205-014-0261-6

Packed bed reactor for degradation of simulated cyanide-containing wastewater

Virender Kumar, Vijay Kumar, Tek Chand Bhalla^*

^*Corresponding author for this work

Research output: Contribution to journal › Journal article › Research › peer-review

16 Citations (Scopus)

Abstract

The discharge of cyanide-containing effluents into the environment contaminates water bodies and soil. Effective methods of treatment which can detoxify cyanide are the need of the hour. The aim of the present study is to develop a bioreactor for complete degradation of cyanide using immobilized cells of Serratia marcescens RL2b. Alginate-entrapped cells of S. marcescens RL2b were used for complete degradation of cyanide in a packed bed reactor (PBR). Cells grown in minimal salt medium (pH 6.0) were harvested after 20 h and exhibited 0.4 U mg⁻¹ dcw activity and 99 % cyanide degradation in 10 h. These resting cells were entrapped using 3 % alginate beads and packed in a column reactor (20 × 1.7 cm). Simulated cyanide (12 mmol l⁻¹)-containing wastewater was loaded and fractions were collected after different time intervals at various flow rates. Complete degradation of 12 m mmol l⁻¹ (780 mg l⁻¹) cyanide in 10 h was observed at a flow rate of 1.5 ml h⁻¹. The degradation of cyanide in PBR showed direct dependence on retention time. The retention time of cyanide in the reactor was 9.27 h. The PBR can degrade 1.2 g of cyanide completely in 1 day.

Original language	English
Journal	3 Biotech
Volume	5
Issue number	5
Pages (from-to)	641-646
Number of pages	6
ISSN	2190-572X
DOIs	https://doi.org/10.1007/s13205-014-0261-6
Publication status	Published - 22 Oct 2015
Externally published	Yes

Bibliographical note

Funding Information:
Authors acknowledge the University Grants Commission (UGC), New Delhi, India, for financial support in the form of JRF to Virender Kumar, and Bioinformatics Centre, H.P University, Shimla (India), for providing computation facility.

Publisher Copyright:
© 2014, The Author(s).

Keywords

Cyanide
Packed bed reactor
Retention time
Serratia marcescens RL2b

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title = "Packed bed reactor for degradation of simulated cyanide-containing wastewater",

abstract = "The discharge of cyanide-containing effluents into the environment contaminates water bodies and soil. Effective methods of treatment which can detoxify cyanide are the need of the hour. The aim of the present study is to develop a bioreactor for complete degradation of cyanide using immobilized cells of Serratia marcescens RL2b. Alginate-entrapped cells of S. marcescens RL2b were used for complete degradation of cyanide in a packed bed reactor (PBR). Cells grown in minimal salt medium (pH 6.0) were harvested after 20 h and exhibited 0.4 U mg−1 dcw activity and 99 % cyanide degradation in 10 h. These resting cells were entrapped using 3 % alginate beads and packed in a column reactor (20 × 1.7 cm). Simulated cyanide (12 mmol l−1)-containing wastewater was loaded and fractions were collected after different time intervals at various flow rates. Complete degradation of 12 m mmol l−1 (780 mg l−1) cyanide in 10 h was observed at a flow rate of 1.5 ml h−1. The degradation of cyanide in PBR showed direct dependence on retention time. The retention time of cyanide in the reactor was 9.27 h. The PBR can degrade 1.2 g of cyanide completely in 1 day.",

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author = "Virender Kumar and Vijay Kumar and Bhalla, {Tek Chand}",

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AU - Kumar, Vijay

AU - Bhalla, Tek Chand

N1 - Funding Information: Authors acknowledge the University Grants Commission (UGC), New Delhi, India, for financial support in the form of JRF to Virender Kumar, and Bioinformatics Centre, H.P University, Shimla (India), for providing computation facility. Publisher Copyright: © 2014, The Author(s).

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N2 - The discharge of cyanide-containing effluents into the environment contaminates water bodies and soil. Effective methods of treatment which can detoxify cyanide are the need of the hour. The aim of the present study is to develop a bioreactor for complete degradation of cyanide using immobilized cells of Serratia marcescens RL2b. Alginate-entrapped cells of S. marcescens RL2b were used for complete degradation of cyanide in a packed bed reactor (PBR). Cells grown in minimal salt medium (pH 6.0) were harvested after 20 h and exhibited 0.4 U mg−1 dcw activity and 99 % cyanide degradation in 10 h. These resting cells were entrapped using 3 % alginate beads and packed in a column reactor (20 × 1.7 cm). Simulated cyanide (12 mmol l−1)-containing wastewater was loaded and fractions were collected after different time intervals at various flow rates. Complete degradation of 12 m mmol l−1 (780 mg l−1) cyanide in 10 h was observed at a flow rate of 1.5 ml h−1. The degradation of cyanide in PBR showed direct dependence on retention time. The retention time of cyanide in the reactor was 9.27 h. The PBR can degrade 1.2 g of cyanide completely in 1 day.

AB - The discharge of cyanide-containing effluents into the environment contaminates water bodies and soil. Effective methods of treatment which can detoxify cyanide are the need of the hour. The aim of the present study is to develop a bioreactor for complete degradation of cyanide using immobilized cells of Serratia marcescens RL2b. Alginate-entrapped cells of S. marcescens RL2b were used for complete degradation of cyanide in a packed bed reactor (PBR). Cells grown in minimal salt medium (pH 6.0) were harvested after 20 h and exhibited 0.4 U mg−1 dcw activity and 99 % cyanide degradation in 10 h. These resting cells were entrapped using 3 % alginate beads and packed in a column reactor (20 × 1.7 cm). Simulated cyanide (12 mmol l−1)-containing wastewater was loaded and fractions were collected after different time intervals at various flow rates. Complete degradation of 12 m mmol l−1 (780 mg l−1) cyanide in 10 h was observed at a flow rate of 1.5 ml h−1. The degradation of cyanide in PBR showed direct dependence on retention time. The retention time of cyanide in the reactor was 9.27 h. The PBR can degrade 1.2 g of cyanide completely in 1 day.

KW - Cyanide

KW - Packed bed reactor

KW - Retention time

KW - Serratia marcescens RL2b

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ER -

Packed bed reactor for degradation of simulated cyanide-containing wastewater

Abstract

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Keywords

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