Browsing by Author "Vaid U."

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    Amido-amine derivative of alginic acid (AmAA) for enhanced adsorption of Pb(II) from aqueous solution
    (Elsevier B.V., 2020) Vaid U.; Mittal S.; Babu J.N.; Kumar R.
    The present work reports the alternate synthesis of amido-amine derivative of alginic acid (AmAA) with high degree of functionalization. The AmAA have been characterized for percentage functionalization, functional group change, surface morphology and thermal decomposition behavior. The results indicate that the amido-amine derivatisation of alginic acid (AA) with >95% functionalization, significantly improves its Pb(II) adsorption efficiency (395.72 mg/g to 535.87 mg/g) over the AA. The equilibrium and kinetic studies showed that Langmuir and Freundlich adsorption isotherm models fitted well to the experimental data, and these followed pseudo-second order kinetic model. The FTIR (Fourier transform infrared spectroscopy) and 13C CP-MAS NMR (Cross-polarization magic angle spinning carbon-13 solid state nuclear magnetic resonance spectroscopy) analysis revealed that Pb(II) binds to the carboxyl group in case of AA and to the carbonyl & amine group in case of AmAA, which leads to increase in its adsorption efficiency. The study concludes that the functionalization of amido-amine on AA improves its adsorptive efficiency for Pb(II) from aqueous medium.
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    Ground/drinking water contaminants and cancer incidence: A case study of rural areas of South West Punjab, India
    (Taylor and Francis Inc., 2019) Kaur G.; Kumar R.; Mittal S.; Sahoo P.K.; Vaid U.
    This study was carried out in the rural areas of South West Punjab, India, to evaluate the groundwater quality and cancer incidence. The epidemiological study was carried using standardized questionnaire method, and the groundwater samples were analyzed for heavy metals by ICP-MS and AAS. The results showed that the cancer prevalence was highest in the age group of > 60, followed by >45–60 years old in both males and females. The average cancer rate in females (272 cases/lakh) was ?3 times higher than the India's national cancer average of 80 cases/lakh. The mean concentration of As(27.59 µg/L), Pb (48.3 µg/L), U (96.56 µg/L), NO3– (67.32 mg/L), and F– (4.7 mg/L) exceeded the drinking water limits of WHO/BIS. Health risk analysis indicated that As, Pb, U, and F– with NO3– are the major groundwater contaminants, which may be one of the potential cause of cancer incidences. Multivariate analyses reveal that anthropogenic activities are source of NO3–, whereas U, As, and F– are mainly of geogenic origin. The carcinogenic and non-carcinogenic risk followed in the order of As > Pb and U > F–>NO3–>Cu > Zn, respectively. Further, correlations between cancer incidence and groundwater quality have been discussed.