New strategies need to be explored to more effectively remove DBPs and prevent new ones from forming, the researchers say. When UV irradiation was used as a treatment step, the levels of some DBPs increased because the UV light elevated the reactivity of organic matter toward chlorine. But even this treatment did not completely remove the contaminants because new DBPs were made more quickly than the old ones could be removed. They found that the treatment using coagulation and sand filtration combined with granular activated carbon filtration was the most effective at lowering DBP concentrations. Then, they treated the water with one of seven water treatment strategies. The researchers continuously added compounds to their model swimming pool that simulated dirt and body fluids and added chlorine according to regulations for full-scale pools. So, Bertram Skibinski, Wolfgang Uhl and colleagues wanted to compare several water treatment strategies under the controlled and reproducible conditions of a pilot-scale swimming pool system. But because of the difficulty of comparing swimming pools with different conditions, such as number of swimmers, chlorine dosing or filling-water quality, scientists don't currently know which strategy is the best. Most pool systems continuously recirculate water through various treatment steps to both disinfect the water and reduce DBPs and their precursors. However, this disinfectant can react with substances in the pool water-many of which are introduced by swimmers themselves-to form DBPs, which can irritate the eyes, skin and lungs. Chlorine is usually added to pool water to kill harmful microbes.
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