Solutions for hard-to-treat oily wastewater
akvola Technologies is a water technology company specialized in the treatment of hard-to-treat waters in the industrial, commercial and municipal sectors, with a focus in oil-water separation and suspended solids removal.
akvola Technologies sells custom solutions based on akvoFloat™ – a separation technology based on a proprietary flotation-filtration process – designed to deal with hard-to-treat waters where conventional technologies fail.
akvola Technologies sells custom solutions based on akvoFloat™ – a separation technology based on a proprietary flotation-filtration process – designed to deal with hard-to-treat waters where conventional technologies fail.
Innovations & solutions
akvoFloat™ Process Technology
akvola Technologies
The akvoFloat™ Technology is a hybrid process consisting of microflotation and ceramic membrane filtration based on akvola's microbubble generator and proprietary automation. Designed for the cost-effective removal of TSS (suspended solids) and FOG (fats, oil and grease) in hard-to-treat waters, akvoFloat™ can consistently deliver a high quality effluent with varying influent conditions.
akvola Technologies
The akvoFloat™ Technology is a hybrid process consisting of microflotation and ceramic membrane filtration based on akvola's microbubble generator and proprietary automation. Designed for the cost-effective removal of TSS (suspended solids) and FOG (fats, oil and grease) in hard-to-treat waters, akvoFloat™ can consistently deliver a high quality effluent with varying influent conditions.
Category: Waste water treatment
Products
akvoFloat™
Flotation-Filtration Process
Flotation-Filtration Process
akvoFloat™ is a hybrid process consisting of microflotation and ceramic membrane filtration based on akvola's microbubble generator and proprietary automation. Designed for the cost-effective removal of TSS (suspended solids) and FOG (fats, oil and grease) in hard-to-treat waters, akvoFloat™ can consistently deliver a high quality effluent with varying influent conditions.