Volume : IX, Issue : X, October - 2019
Ultrasound induced Fenton/Persulphate/H2O2/ZnO promoted advanced oxidation process for the mineralization of Indigo Carmine pollutant in water
Veena Vijayan, Suguna Yesodharan, E. P. Yesodharan
Abstract :
Indigo carmine (IC), widely used in textile industry, food colorings, medical diagnostics etc. is a major dye pollutant of water. Ultrasonic (US) degradation of IC in water under different conditions is investigated. The effect of US frequency (200, 350 , 620 and 1000 kHz) and power (20, 40, 60 and 80W) on the degradation profile is evaluated. Optimum degradation is obtained at 350 kHz and 80W in the acidic medium. Combination with Fe2+, H2O2, peroxydisulphate and ZnO enhances the sonodegradation efficiency significantly. The influence of salts/ anions likely to be present in water on the sonolytic degradation varies from inhibition to ‘no effect’. Major intermediates formed during the degradation of the dye are identified using LC/MS technique. Eventually the degradation leads to complete mineralization as confirmed by the absence of chemical oxygen demand (COD). Optimum parameters for the mineralization are identified experimentally and appropriate reaction mechanisms are proposed.
Keywords :
Article:
Download PDF
DOI : 10.36106/ijar
Cite This Article:
ULTRASOUND INDUCED FENTON/PERSULPHATE/H2O2/ZNO PROMOTED ADVANCED OXIDATION PROCESS FOR THE MINERALIZATION OF INDIGO CARMINE POLLUTANT IN WATER, Veena Vijayan, Suguna Yesodharan, E.P. Yesodharan INDIAN JOURNAL OF APPLIED RESEARCH : Volume-9 | Issue-10 | October-2019
Number of Downloads : 261
ULTRASOUND INDUCED FENTON/PERSULPHATE/H2O2/ZNO PROMOTED ADVANCED OXIDATION PROCESS FOR THE MINERALIZATION OF INDIGO CARMINE POLLUTANT IN WATER, Veena Vijayan, Suguna Yesodharan, E.P. Yesodharan INDIAN JOURNAL OF APPLIED RESEARCH : Volume-9 | Issue-10 | October-2019
Our Other Journals...
-
International Journal of
Scientific Research Visit Website -
PARIPEX Indian Journal
of Research Visit Website -
Global Journal for
Research Analysis Visit Website