Conventional aerobic treatment of high-strength wastewater is not economical due to excessively high energy requirement for compressed air supply. The use of passive aeration avoids the use of compressed air and enables energy efficient oxygen supply directly from the air. This study evaluates a passively aerated simultaneous nitrification and denitrification performing biofilm to treat concentrated wastewater. The biofilm reactor was operated >5-months under alternating anaerobic/aerobic conditions. For 4-times concentrated wastewater, >80% COD (2307 mgL-1h-1) and >60% N (60 mgL-1h-1) was removed at a hydraulic retention time (HRT) of 7h. A double application in the same reactor enabled > 95% COD and 85% N-removal, at an overall HRT of 14h...
During this research study, a pumped flow biofilm reactor (PFBR) technology developed at NUI Galway ...
Nitrogen pollution is a growing problem that is detrimental to the environment and the economy. Trad...
autotrophic nitrogen removal, yet control of nitrogen turnover remains challenging in MABR counter-d...
Activated sludge, the most widely used biological wastewater treatment process is known to be expens...
The current paper describes a novel passive aeration simultaneous nitrification and denitrification ...
In today’s rapidly urbanized and industrialized society, there is an increasing need for cost-effect...
The principal reason for the high energy costs for biological wastewater treatment is the poor trans...
The performance of a particulate-biofilm, expanded-bed process for nitrification of activated sludge...
Water and wastewater treatment are energy intensive processes that account for 3% of the energy load...
Nitrogen removal from wastewater is important for the revention of significant health and environmen...
The role of wastewater treatment infrastructure in protecting water resources and thus as a vital pa...
Second-generation total nitrogen (TN) removal processes, such as shortcut pathways and nitrite/nitra...
In this laboratory study, a novel wastewater treatment technology, the air suction flow-biofilm reac...
Conventional municipal wastewater treatments use about 50 % of their energy for bulk liquid aeration...
Treatment of wastewater to acceptable permit standards requires energy, mostly as electricity. The t...
During this research study, a pumped flow biofilm reactor (PFBR) technology developed at NUI Galway ...
Nitrogen pollution is a growing problem that is detrimental to the environment and the economy. Trad...
autotrophic nitrogen removal, yet control of nitrogen turnover remains challenging in MABR counter-d...
Activated sludge, the most widely used biological wastewater treatment process is known to be expens...
The current paper describes a novel passive aeration simultaneous nitrification and denitrification ...
In today’s rapidly urbanized and industrialized society, there is an increasing need for cost-effect...
The principal reason for the high energy costs for biological wastewater treatment is the poor trans...
The performance of a particulate-biofilm, expanded-bed process for nitrification of activated sludge...
Water and wastewater treatment are energy intensive processes that account for 3% of the energy load...
Nitrogen removal from wastewater is important for the revention of significant health and environmen...
The role of wastewater treatment infrastructure in protecting water resources and thus as a vital pa...
Second-generation total nitrogen (TN) removal processes, such as shortcut pathways and nitrite/nitra...
In this laboratory study, a novel wastewater treatment technology, the air suction flow-biofilm reac...
Conventional municipal wastewater treatments use about 50 % of their energy for bulk liquid aeration...
Treatment of wastewater to acceptable permit standards requires energy, mostly as electricity. The t...
During this research study, a pumped flow biofilm reactor (PFBR) technology developed at NUI Galway ...
Nitrogen pollution is a growing problem that is detrimental to the environment and the economy. Trad...
autotrophic nitrogen removal, yet control of nitrogen turnover remains challenging in MABR counter-d...
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