Detail publikačního výsledku
Plasma-assisted decomposition of atrazine traces in water
VANRAES, P.; NIKIFOROV, A.; VYHNÁNKOVÁ, E.; ŠUBRT, M.; KRČMA, F.; VÁVROVÁ, M.; SURMONT, P.; LYNEN, F.; DAELS, N.; DE CLERK, K.; VAN HULLE, S.; VANDAMME, J.; VAN DURME, J.; LEYS, C.
Originální název
Plasma-assisted decomposition of atrazine traces in water
Anglický název
Plasma-assisted decomposition of atrazine traces in water
Druh
Stať ve sborníku v databázi WoS či Scopus
Originální abstrakt
Plasma discharge is a promising technique for micropollutant decomposition, since it produces a wide spectrum of highly reactive species near the water surface. In this research, two DBD reactors with a water electrode were investigated on energy yield of H2O2 production, ozone production and atrazine decomposition, in comparison to a reference reactor based on diaphragm discharge. Energy yield of atrazine decomposition is two orders of magnitude higher in the DBD reactors. They can be further optimized by adding a membrane or active carbon textile with high surface area underneath the water surface. Adsorption of the micropollutant on such membrane or textile leads to higher decomposition rate at the plasma-liquid interface, without changing the input power. The synergetic combination of liquid plasma with nanofiber membrane or carbon cloth is a convenient water treatment technology, which can easily be scaled up to industrial level.
Anglický abstrakt
Plasma discharge is a promising technique for micropollutant decomposition, since it produces a wide spectrum of highly reactive species near the water surface. In this research, two DBD reactors with a water electrode were investigated on energy yield of H2O2 production, ozone production and atrazine decomposition, in comparison to a reference reactor based on diaphragm discharge. Energy yield of atrazine decomposition is two orders of magnitude higher in the DBD reactors. They can be further optimized by adding a membrane or active carbon textile with high surface area underneath the water surface. Adsorption of the micropollutant on such membrane or textile leads to higher decomposition rate at the plasma-liquid interface, without changing the input power. The synergetic combination of liquid plasma with nanofiber membrane or carbon cloth is a convenient water treatment technology, which can easily be scaled up to industrial level.
Klíčová slova
discharge with liquid, atrazine, decomposition
Klíčová slova v angličtině
discharge with liquid, atrazine, decomposition
Autoři
VANRAES, P.; NIKIFOROV, A.; VYHNÁNKOVÁ, E.; ŠUBRT, M.; KRČMA, F.; VÁVROVÁ, M.; SURMONT, P.; LYNEN, F.; DAELS, N.; DE CLERK, K.; VAN HULLE, S.; VANDAMME, J.; VAN DURME, J.; LEYS, C.
Vydáno
16.07.2014
Místo
Porto
ISBN
978-989-95089-6-5
Kniha
Proceedings of International Congress on Water, Waste and Energy Management
Strany od
Water-0931
Strany do
Water-0934
Strany počet
4