Using pretreated waste oyster and clam shells and microwave hydrothermal treatment to recover boron from concentrated wastewater
Resource
BIORESOURCE TECHNOLOGY, 102(17), 7802-7806
Journal
Bioresource Technology
Pages
7802-7806
Date Issued
2011
Date
2011
Author(s)
Abstract
Boron is an essential nutrient for animals and plants, but it can be harmful in excessive levels. In this study, three types of crushed shells (oyster, hard clam and freshwater clam) were pretreated and then reused as mineralizers to remove and recover the boron from concentrated wastewater by using the microwave hydrothermal method. Chemical and physical properties of raw and pretreated crushed shells were determined and compared using SEM, XRD, BET and WD-XRF. Effects of pretreatment method (heated or pyrolysis), particle sizes, initial boron concentrations, reaction times and shells dosages on boron recovery were investigated. The oyster shells pretreated by heat performed better than heated hard clam and freshwater clam shells, and the boron recovery efficiency reached around 95% within 10 min of reaction time. The experimental results indicate that the pretreated oyster shell is an effective mineralizer for removal and recovery of boron from concentrated wastewater. © 2011 Elsevier Ltd.
SDGs
Other Subjects
Boron concentrations; Boron recovery; Clam shell; Concentrated wastewater; Essential nutrients; Microwave hydrothermal; Microwave hydrothermal method; Microwave-hydrothermal treatment; Mineralization; Oyster shell; Pre-treated wastes; Pretreatment methods; XRD; Boron; Boron compounds; Face recognition; Pyrolysis; Recovery; Shellfish; Shells (structures); Wastewater; Wastewater reclamation; Wastewater treatment; Chemicals removal (water treatment); boron; bivalve; boron; chemical property; hydrothermal activity; microwave radiation; mineralization; physical property; pollutant removal; pyrolysis; reaction kinetics; recycling; separation; shell; waste treatment; wastewater; article; clam; controlled study; metal recovery; nonhuman; oyster; particle size; physical chemistry; priority journal; pyrolysis; reaction time; scanning electron microscopy; waste water management; waste water recycling; X ray fluorescence; Animals; Bivalvia; Boron; Microscopy, Electron, Scanning; Microwaves; Ostreidae; Particle Size; Water Pollutants, Chemical; X-Ray Diffraction; Animalia; Bivalvia; Ostreidae
Type
journal article
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