Synergy of combining megahertz ultrasound frequency and heat-activated persulfate for wastewater decontamination: micromodeling of acoustic cavitation and its role in the sono-hybrid process

“…Bubbles collapsing violently in less than a microsecond release a lot of heat, resulting in short‐lived hot patches 12 . Ultrasound irradiation can cause the degradation of organic molecules, the oxidation and reduction of inorganic compounds, and the sonolysis of water into reactive radicals: OH and H 13 …”

“…Bubbles collapsing violently in less than a microsecond release a lot of heat, resulting in short-lived hot patches. 12 Ultrasound irradiation can cause the degradation of organic molecules, the oxidation and reduction of inorganic compounds, and the sonolysis of water into reactive radicals: OH and H. 13 Ultrasound's role in textile applications can be divided into two categories: removing materials/impurities from the fibre surface (mainly in the sono-preparation process) and the diffusion and insertion of dye molecules/chemicals and nanoparticles into fibre (sonodyeing/sonoprinting and sonofinishing). 14 Ultrasound-assisted processing is considered a promising technique for lowering operation time, reducing energy consumption and improving product quality.…”

Ultrasound‐assisted enzymatic scouring of jute optimised by response surface methodology and its natural dyeing

“…Bubbles collapsing violently in less than a microsecond release a lot of heat, resulting in short‐lived hot patches 12 . Ultrasound irradiation can cause the degradation of organic molecules, the oxidation and reduction of inorganic compounds, and the sonolysis of water into reactive radicals: OH and H 13 …”

“…Bubbles collapsing violently in less than a microsecond release a lot of heat, resulting in short-lived hot patches. 12 Ultrasound irradiation can cause the degradation of organic molecules, the oxidation and reduction of inorganic compounds, and the sonolysis of water into reactive radicals: OH and H. 13 Ultrasound's role in textile applications can be divided into two categories: removing materials/impurities from the fibre surface (mainly in the sono-preparation process) and the diffusion and insertion of dye molecules/chemicals and nanoparticles into fibre (sonodyeing/sonoprinting and sonofinishing). 14 Ultrasound-assisted processing is considered a promising technique for lowering operation time, reducing energy consumption and improving product quality.…”

Ultrasound‐assisted enzymatic scouring of jute optimised by response surface methodology and its natural dyeing

Z-scheme g-C3N4/α-FOD heterojunction-assisted persulfate activation for degradation of tetracycline hydrochloride under visible light: Insights into mechanism

Enhanced removal of RB5 pollutant via sono-catalytic activation of potassium peroxydisulfate using Porous/ZIF-8