Effect of ultra violet exposure on polymer fragmentation in aqueous media

Summary

Studying microplastics distribution in aqueous media requires understanding polymer fragmentation processes effected by the natural factors. It is widely accepted that UV radiation is the most important factor resulting in (relatively) rapid degradation of polymers: the solar radiation initiates autocatalytic thermal oxidation that is the trigger of polymer degradation in the environment. Wind and additional mechanical stress cause molecular chains to break, which, in the presence of oxygen, leads to increased plasticity of the material (so-called chemico-mechanical degradation). Mechanical fragmentation can also accelerate if the material already bears the traces of aging due to other destructive factors. As part of the study, laboratory experiments were conducted to accelerate the «aging» of polymers by exposing them to UV radiation on water surface at an intensity of 1.16 W/m² until the first signs of fragmentation appeared on the polymer samples. Based on the obtained experimental data, the residence time of the target polymers – polyethylene (PE) and polypropylene (PP) – in the Izhevsk water bodies under the natural solar UV radiation conditions before the first signs of fragmentation appeared was calculated. The calculations show that while PE and PP entering the aqueous media being exposed to the natural UV radiation, the first signs of polymer fragmentation appear in 730 days in winter and 136 days in summer.

Key words

UV-irradiation , microplastic , plastic waste , polymers , degradation , fragmentation

On the practicability of using ultraviolet to remove chloramines
in swimming pools

Summary

There is a practice of using ultraviolet irradiation as a method for removing chloramines from water in swimming pools and waterparks. The review of scientific publications devoted to this technology is presented. Based on the literature data, it is concluded that UV irradiation has practically no effect on the concentration of chloramines in water in swimming pools and waterparks. UV irradiation is more effective while being used for disinfection in combination with chlorination. The combination of UV irradiation and chlorination provides for the reliable disinfection with possible reducing the concentration of chlorine and its derivatives in pool water. And the removal of chloramines, if required, should be carried out by other technologies as part of advanced water treatment schemes that solve this problem more efficiently (correct multilayer filtration, the use of activated carbon, etc.).

Key words

water treatment , swimming pool , UV-irradiation , chloramine removal