Self-directing optimization for enhanced caffeine degradation in synthetic coffee wastewater using induced cells of Pseudomonas sp.: Bioreactor studies

Coffee wastewater poses a serious threat to the environment due to the presence of a large number of toxic compounds which necessitates the importance of developing suitable treatment methodologies. Although there are treatments available to treat the different wastewaters, the presence of caffeine...

Full description

Saved in:
Bibliographic Details
Published in:Journal of water process engineering 2021-12, Vol.44, p.102341, Article 102341
Main Authors: Shanmugam, Manoj Kumar, Rathinavelu, Sasikaladevi, Gummadi, Sathyanarayana N.
Format: Article
Language:English
Subjects:
Bioreactor
Caffeine degradation
Coffee wastewater treatment
Pseudomonas sp
Regression modelling
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Coffee wastewater poses a serious threat to the environment due to the presence of a large number of toxic compounds which necessitates the importance of developing suitable treatment methodologies. Although there are treatments available to treat the different wastewaters, the presence of caffeine in wastewater interrupts the complete treatment of coffee wastewater. Alternatively, Pseudomonas sp. showed an excellent capacity to withstand coffee wastewater and degrades caffeine completely in shake flask studies. In this study, we scaled up the coffee wastewater treatment to a 1 L in bioreactor and optimized for caffeine degradation using the self-directing optimization technique. Using self-directing optimization maximum degradation rate of 16.73 mg/L.h was obtained at 210 rpm, 1.16 vvm, and 0.383 g/L of initial biomass. A regression model was developed to predict the caffeine degradation rate with oxygen mass transfer coefficient (kLa) and initial biomass concentration. The regression model was solved and the optimal conditions of initial biomass concentration and kLa are 0.23 g/L and 64.26 h−1 respectively. Under those conditions, experiments were performed and maximum degradation rate was 16.9 mg/L.h was obtained, which is in comparison with model prediction (15.2 mg/L.h). [Display omitted] •Pseudomonas sp. showed desirable property for treatment of coffee wastewater.•Pseudomonas sp. degrades caffeine in synthetic wastewater completely in 6 h.•SDO showed highest caffeine degradation rate of 16.77 mg/L.h in 5 h.•COD, BOD and TOC removal were found to be 82, 92 and 82% respectively.•Regression models were developed for caffeine degradation and validated.
ISSN:2214-7144
2214-7144
DOI:10.1016/j.jwpe.2021.102341