Your search keyword '"Ultrasound frequency"' showing total 2 results

1. Sonochemical degradation of estradiols: Incidence of ultrasonic frequency

Author

Capocelli, Mauro, Joyce, Eadaoin, Lancia, Amedeo, Mason, Timothy J., Musmarra, Dino, and Prisciandaro, Marina

Subjects

*SONOCHEMICAL degradation, *ENDOCRINE disruptors, *SONICATION, *CHEMICAL reactions, *CHEMISTRY experiments, *RADIATION dosimetry, *HYDROXYL group

Abstract

Abstract: This paper presents an experimental study of the ultrasonic degradation of organic pollutants in terms of the effect of ultrasonic frequency (40–380–850–1000kHz). The removal efficiency of two endocrine disrupting compounds [17β-estradiol (E2) and 17α-ethinylestradiol (EE2)] is investigated using laboratory scale ultrasonic baths at low power intensities. Higher ultrasonic frequencies were found to be more effective for pollutant degradation with 850kHz the best: 9.0×10−1 mg/kWh for E2 and 6.8×10−1 mg/kWh for EE2 at initial concentrations of 1ppm. Additionally, the removal of p-nitrophenol was investigated under the same conditions, as a dosimetry reaction for estimating the hydroxyl radical production, key component in organic pollutant removal. In order to describe the overall phenomena occurring inside the reactor and to predict the apparent hydroxyl radical production, a simulation algorithm is proposed. It incorporates the solution of ODE systems that embodies bubble dynamics, heat and mass transfer through the bubble wall and chemical reactions in the gas–vapor phase for an initial bubble nuclei population. The experimental degradation measures of p-nitrophenol over the range of frequencies studied were found to be comparable with the model results of hydroxyl radicals produced during the sonication treatment. [Copyright &y& Elsevier]

Published

2012

2. Sonochemical degradation of estradiols: Incidence of ultrasonic frequency

Author

Marina Prisciandaro, Timothy J. Mason, Amedeo Lancia, Mauro Capocelli, Dino Musmarra, Eadaoin M. Joyce, Capocelli, M, Joyce, Eadaoin, Lancia, Amedeo, Mason Timothy, J., Musmarra, Dino, Prisciandaro, Marina, Mauro, Capocelli, Eadaoin, Joyce, Timothy J., Mason, Dino, Musmarra, and Marina, Prisciandaro

Subjects

education.field_of_study, Estradiol, Chemistry, General Chemical Engineering, Radical, Sonication, Bubble, Population, Advanced oxidation process, Analytical chemistry, Numerical simulation, General Chemistry, Industrial and Manufacturing Engineering, Ultrasound frequency, Sonochemistry, chemistry.chemical_compound, Advanced oxidation proce, Environmental Chemistry, Ultrasonic sensor, Hydroxyl radical, education

Abstract

This paper presents an experimental study of the ultrasonic degradation of organic pollutants in terms of the effect of ultrasonic frequency (40–380–850–1000 kHz). The removal efficiency of two endocrine disrupting compounds [17β-estradiol (E2) and 17α-ethinylestradiol (EE2)] is investigated using laboratory scale ultrasonic baths at low power intensities. Higher ultrasonic frequencies were found to be more effective for pollutant degradation with 850 kHz the best: 9.0 × 10−1 mg/kW h for E2 and 6.8 × 10−1 mg/kW h for EE2 at initial concentrations of 1 ppm. Additionally, the removal of p-nitrophenol was investigated under the same conditions, as a dosimetry reaction for estimating the hydroxyl radical production, key component in organic pollutant removal. In order to describe the overall phenomena occurring inside the reactor and to predict the apparent hydroxyl radical production, a simulation algorithm is proposed. It incorporates the solution of ODE systems that embodies bubble dynamics, heat and mass transfer through the bubble wall and chemical reactions in the gas–vapor phase for an initial bubble nuclei population. The experimental degradation measures of p-nitrophenol over the range of frequencies studied were found to be comparable with the model results of hydroxyl radicals produced during the sonication treatment.

Published

2012