Urban wastewater treatment using vermi-biofiltration system

This work illustrates the potential of a novel vermi-biofiltration system in treatment of urban wastewater. A small-scale vermi-biofiltration reactor was constructed using vertical subsurface-flow constructed wetlands (VSFCWs) aided with local earthworms Perionyx sansibaricus. The coco-grass: Cyprus...

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Bibliographic Details
Published in:Desalination 2011-11, Vol.282, p.95-103
Main Authors: Tomar, Priyanka, Suthar, Surindra
Format: Article
Language:English
Subjects:
chemical oxygen demand
COD
constructed wetlands
Construction
Crack opening displacement
Density
desalination
Dissolution
earthworms
electrical conductivity
Marshy plants
Oxygen demand
Perionyx
Perionyx sansibaricus
Reactors
stocking rate
subsurface flow
TDS
total dissolved solids
total suspended solids
Vermi-biofiltration
Waste water
wastewater
Wastewater treatment
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Summary:This work illustrates the potential of a novel vermi-biofiltration system in treatment of urban wastewater. A small-scale vermi-biofiltration reactor was constructed using vertical subsurface-flow constructed wetlands (VSFCWs) aided with local earthworms Perionyx sansibaricus. The coco-grass: Cyprus rotundus (density 0.14 plants/in. 2) was used to construct VSFCW. Another reactor without earthworms acted as experimental control. The wastewater was treated through this system for a total of eight repetitive cycles and after each cycle the changes in pH, electrical conductivity (EC), total dissolved solids (TDS), and total suspended solids (TSS), chemical oxygen demand (COD), NO 3 − and PO 4 3− of water were measured. Vermi-biofiltration caused significant decrease in level of TSS (88.6%), TDS (99.8%), COD (90%), NO 3 − (92.7%) and PO 4 3− (98.3%). There were about 38.8, 20.8, 80.6, 50.8 and 144.6% more removal of TSS, TDS, NO 3 −, PO 4 3− and COD, respectively in vermi-biofiltration than control. Results thus suggested that vermin-biofiltration system is more efficient than VSFCW in terms of contamination removal efficacy. However, this work provides a preliminary idea of using earthworms in wastewater treatment system and further detailed studies are required on some key issues (e.g., loading rate, flow alternation impacts and earthworm stocking density) of this system. ► It is first study on integrated vermin-biofiltration system using both vermifiltration and traditional biofiltration systems. ► Vermifiltration caused significant decrease in TSS (88.6%), TDS (99.8%), COD (90%), NO 3 − (92.7%) and phosphate PO 4 2− (98.3%) level of treated wastewater. ► Vermifiltration was more efficient in terms of removal of major pollutants from wastewater.
ISSN:0011-9164
1873-4464
DOI:10.1016/j.desal.2011.09.007