A Cryogel-based Bioreactor for Water Treatment Applications
Published on by Water Network Research, Official research team of The Water Network in Academic
A cryogel -based bioreactor for water treatment applications
Dmitriy A. Berillo, Jonathan L. Caplin, Andrew B. CundycIrin, N. Savinaa
Abstract
The aim of this study was to develop and test a non-diffusion limited, high cell density bioreactor for biodegradation of various phenol derivatives. The bioreactor was obtained using a straightforward one-step preparation method using cryostructuration and direct cross-linking of bacteria into a 3D structured (sponge-like) macroporous cryogel composite material consisting of 11.6% (by mass) cells and 1.2–1.7% polymer, with approximately 87% water (in the material pores).
The macroporous cryogel composite material, composed of live bacteria, has pore sizes in the range of 20–150 μm (confirmed by SEM and Laser Scanning Confocal Microscopy). The enzymatic activity of bacteria within the cryogel structure and the effect of freezing on the viability of the cross-linked cells was estimated by MTT assay. Cryogels based on Pseudomonas mendocina, Rhodococcus koreensis and Acinetobacter radioresistens were exploited for the effective bioremediation of phenol and m-cresol, and to a lesser extent 2-chlorophenol and 4-chlorophenol, utilising these phenolic contaminants in water as their only source of carbon. For evaluation of treatment scalability the bioreactors were prepared in plastic “Kaldnes” carriers to improve their mechanical properties and allow application in batch or fluidised bed water treatment modes.
Keywords: Bacteria immobilisation , Bioremediation, Phenol, Cresol, Chlorophenols
Source: Science Direct
Taxonomy
- Bioreactor
- Chlorine Dioxide
- Membrane Bioreactor Systems
- Chlorination
- Bioaugmentation
- Bioretention
- Biotechnology
- Biodiversity
- Biochemistry
- Bioremediation
- Biofuels
- Biotechnology
- Bioreactors & Processes
- Bioenergy
- fixed-bed technology
- Moving Bed Biofilm Reactor (MBBR)