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Sonochemical recovery of uranium from nanosilica-based sorbent and its biohybrid
Affiliation:1. Laser & Plasma Technology Division, Bhabha Atomic Research Centre, Mumbai 400085, India;2. Nuclear Agriculture & Biotechnology Division, Bhabha Atomic Research Centre, Mumbai 400085, India;3. Alkali Material & Metal Division, Bhabha Atomic Research Centre, Mumbai 400085, India;4. Homi Bhabha National Institute, Anushaktinagar, Trombay, Mumbai 400094, India;5. Chemical Engineering Department, Institute of Chemical Technology, Matunga, Mumbai 400019, India
Abstract:Use of nanomaterials to remove uranium by adsorption from nuclear wastewater is widely applied, though not much work is focused on the recovery of uranium from the sorbents. The present work reports the recovery of adsorbed uranium from the microstructures of silica nanoparticles (SiO2M) and its functionalized biohybrid (fBHM), synthesized with Streptococcus lactis cells and SiO2M, intensified using ultrasound. Effects of temperature, concentration of leachant (nitric acid), sonic intensity, and operating frequency on the recovery as well as kinetics of recovery were thoroughly studied. A comparison with the silent operation demonstrated five and two fold increase due to the use of ultrasound under optimum conditions in the dissolution from SiO2M and fBHM respectively. Results of the subsequent adsorption studies using both the sorbents after sonochemical desorption have also been presented with an aim of checking the efficacy of reusing the adsorbent back in wastewater treatment. The SiO2M and fBHM adsorbed 69% and 67% of uranium respectively in the second cycle. The adsorption capacity of fBHM was found to reduce from 92% in the first cycle to 67% due to loss of adsorption sites in the acid treatment. Recovery and reuse of both the nuclear material and the sorbent (with some make up or activation) would ensure an effective nuclear remediation technique, catering to UN's Sustainable Development Goals.
Keywords:Uranium recovery  Ultrasound  Intensification  Silica nanoparticles  Biohybrid
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