Add to ORKGFinal effluent from wastewater treatment plants may contain bacteria that can pose a range of environmental and health threats. A microbubble-gas plasma reactor capable of producing a number of both reactive oxygen species and reactive nitrogen species has been developed for inactivating bacteria in final effluents. At the optimum operating conditions, greater than 5-log reductions in E. coli viability was achieved in pure water after 30 min of operation with an energy consumption of 68 kJ/L. Addition of humic acid reduced the E. coli inactivation rate. At the highest concentration of humic acid tested (0.0015% w/w), E. coli inactivation was reduced by ˜50% compared to that achieved in pure water for a 30-minute treatment time. Longer treat...
(Figure Presented) Low temperature atmospheric pressure plasma (produced by a 250mW pulsed gliding a...
Microbial fuel cell (MFC) technology is currently gaining recognition as one of the most promising b...
WOS: 000325869900001This study focuses on the utilization of glow discharge technique for the reduct...
Final effluent from wastewater treatment plants may contain bacteria that can pose a range of enviro...
Water pollution can cause bacteria and viruses to multiply and spread, endangering human health. The...
Aims: This study aimed to compare the efficacy of plasma activated water (PAW) generated by two nove...
The present study used water-electrode plasma discharge to increase the effect of bacterial inactiva...
Failure of conventional water treatment systems may lead to the contamination of water sources, whic...
The disinfection of water containing the microorganism, Escherichia coli (E. coli) by exposure to a ...
A laboratory study was conducted to determine the feasibility of activated sludge reactor for treat...
The aim of the present study was to evaluate responses of potential indicator bacteria (i.e. Escheri...
An underwater dielectric barrier discharge (DBD) plasma was applied to the disinfection of Escherich...
Microbial Fuel Cells (MFCs) are emerging as an effective means of treating different types of waste ...
Aim: To evaluate the microbial disinfection efficacy of a plasmachemical solu-tion obtained by the ac...
Granular activated carbon (GAC) is used in water treatment systems, typically to remove pollutants s...
(Figure Presented) Low temperature atmospheric pressure plasma (produced by a 250mW pulsed gliding a...
Microbial fuel cell (MFC) technology is currently gaining recognition as one of the most promising b...
WOS: 000325869900001This study focuses on the utilization of glow discharge technique for the reduct...
Final effluent from wastewater treatment plants may contain bacteria that can pose a range of enviro...
Water pollution can cause bacteria and viruses to multiply and spread, endangering human health. The...
Aims: This study aimed to compare the efficacy of plasma activated water (PAW) generated by two nove...
The present study used water-electrode plasma discharge to increase the effect of bacterial inactiva...
Failure of conventional water treatment systems may lead to the contamination of water sources, whic...
The disinfection of water containing the microorganism, Escherichia coli (E. coli) by exposure to a ...
A laboratory study was conducted to determine the feasibility of activated sludge reactor for treat...
The aim of the present study was to evaluate responses of potential indicator bacteria (i.e. Escheri...
An underwater dielectric barrier discharge (DBD) plasma was applied to the disinfection of Escherich...
Microbial Fuel Cells (MFCs) are emerging as an effective means of treating different types of waste ...
Aim: To evaluate the microbial disinfection efficacy of a plasmachemical solu-tion obtained by the ac...
Granular activated carbon (GAC) is used in water treatment systems, typically to remove pollutants s...
(Figure Presented) Low temperature atmospheric pressure plasma (produced by a 250mW pulsed gliding a...
Microbial fuel cell (MFC) technology is currently gaining recognition as one of the most promising b...
WOS: 000325869900001This study focuses on the utilization of glow discharge technique for the reduct...