52 research outputs found
Modeling bromate formation during ozonation
Bromate formation has been identified as a significant barrier in the
application of ozone during water treatment for water sources that contain high
levels of bromide. Bromate has been identified as a possible human carcinogen
and bromate levels in drinking water are strictly controlled at 10 mu g/L in
most developed countries. Various models have been proposed to model bromate
formation during ozonation based on raw water quality, ozone dose and contact
time. Two main approaches for modeling have been used: an empirical regression
modeling methodology and kinetic-based methodology. Currently, the benefit of
the bromate models lies in their ability to show how process parameters may
impact on the amount bromate formed
Effects of quenching methods on HAA determination in chloraminated waters
This study investigated how determination of haloacetic acid (HAA) in chloraminated samples was affected by use of ammonium chloride (NH4Cl), the chlorine quenching agent recommended in US Environmental Protection Agency method 552.3. Alternative quenching agents and methods were also examined
MIEXÂź Treatment of an Effluent-Impacted Stream
A case study was conducted to examine the magnetic ion exchange (MIEXÂź) process for treating water impacted by wastewater treatment plant effluent and removing disinfection by-product precursors. The plant effluent increased dissolved organic carbon, ultraviolet absorbance at 254 nm (UV254), anions, and disinfection by-product precursors at the discharge and downstream locations. The MIEX process reduced dissolved organic carbon by 42-47%, UV254 absorbance by 61-68%, and trihalomethane and haloacetic acid formation potential (FP) by 50-70% at different downstream locations. On the other hand, halonitromethane FP was reduced by only 10-15% and N-nitrosodimethylamine (NDMA) FP increased as a result of chloramination after MIEX treatment. Uniform formation condition experiments showed that NDMA concentrations remained below 10 ng/L when chlorine alone or 40 min of chlorine contact time before ammonia addition were used for postdisinfection. However, use of preformed chloramine resulted in 36 ng/L of NDMA formation. Because MIEX substantially removes trihalomethane and haloacetic acid precursors, it may allow the use of more chlorine for longer contact time, which can lead to less NDMA formation
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