Sonochemical EngineeringH. Scott Fogler |
Contents
J Pings and V P Gutschick | 11 |
SONOCATALYTIC OXIDATION IN AQUEOUS SOLUTIONS | 18 |
THE ULTRASONIC IRRADIATIONS OF SOME SIMPLE ORGANIC MOLECULES | 27 |
Copyright | |
10 other sections not shown
Common terms and phrases
acoustic field acoustic streaming acoustic waves alkaloids amplitude applied aqueous brine carbon tetrachloride catalyst cavitation cavitation bubble centipoise Chem chemical cleavage collapse crude oil crystal decrease diameter displacement disturbances drying rate edgetone effect emulsifier emulsions Equation experimental extraction Fogler free-stream frequency heat transfer horn hydrogen peroxide hypochlorous acid ibid increase insonation instability intensity interface liquid mass transfer maximum measured no-sound nozzle exit nucleus Nusselt Nusselt number obtained oil flow rate oscillation output oxidation parameters particle displacement phase phenol Phys porous produced Progr PROGRESS SYMPOSIUM SERIES radius Raney Nickel ratio reaction resonant Reynolds number sample sandstone shown in Figure solution sonifier sonochemical sound field sound particle velocity sound pressure level Soviet Phys.-Acoust Strouhal number surface temperature tion transducer transverse tube turbulent ultrasonic energy ultrasonic power ultrasonic pressure ultrasonic waves ultrasound viscosity wastewater waterflooding