H2S Removal from Groundwater by Chemical Free Advanced Oxidation Process Using UV-C/VUV Radiation

Abstract: Sulfide species may be present in groundwater due to natural processes or due to anthropogenic activity. H2S contamination poses odor nuisance and may also lead to adverse health effects. Advanced oxidation processes (AOPs) are considered promising treatments for hydrogen-sulfide removal from water, but conventional AOPs usually require continuous chemical dosing, as well as post-treatment, when solid catalysts are applied. Vacuum-UV (VUV) radiation can generate ·OH in situ via water photolysis, initiating che… Show more

“…Using both k’ UV dose and k’ VUV dose (or D UV and D VUV ) is a better approach than using k’ total dose or (D total ). Gilboa et al., 2021 uses both D UV and D VUV to represent H 2 S degradation using VUV/UV AOP. However, from a scientific perspective, k’ UV dose and k’ VUV dose (or D UV and D VUV ) are difficult to compare because they differ by one or two orders of magnitude (see Fig.…”

A novel approach to interpret quasi-collimated beam results to support design and scale-up of vacuum UV based AOPs

“…Using both k’ UV dose and k’ VUV dose (or D UV and D VUV ) is a better approach than using k’ total dose or (D total ). Gilboa et al., 2021 uses both D UV and D VUV to represent H 2 S degradation using VUV/UV AOP. However, from a scientific perspective, k’ UV dose and k’ VUV dose (or D UV and D VUV ) are difficult to compare because they differ by one or two orders of magnitude (see Fig.…”

A novel approach to interpret quasi-collimated beam results to support design and scale-up of vacuum UV based AOPs

A combined approach of electrodialysis pretreatment and vacuum UV for removing micropollutants from natural waters