Litcius/Paper detail

Suspended matter filtration causes a counterintuitive increase in UV-absorption

L. Peperzak, Jan-Berend W Stuut, H.J. van der Woerd

2022Marine Pollution Bulletin10 citationsDOIOpen Access PDF

Abstract

In water treatment, filtration is often a first step to avoid interference of chemical or UV-disinfection with suspended matter (SPM). Surprisingly, in testing a ballast water filter with 25 and 40 μm mesh screens, UV-absorption (A, 254 nm) of filtered water increased with the largest increase in the finest screen. The hypothesis that filtration partly removes large particles and partly replaces them with small unfiltered ones, leading to an overall increase in absorption, was tested by measuring particle counts, particle-size distributions (PSD) and by modeling the Mass Normalized Beam Attenuation Coefficient (A/SPM) before and after filtration. An independent model verification was made by measuring and modeling A/SPM of three differently sized Arizona test dust suspensions. It is concluded that filtration is a good pretreatment for chemical disinfection systems because it removes the suspended matter mass, but that the production of smaller particles increases UV-absorption and hence may reduce disinfection performance.

Topics & Concepts

Filtration (mathematics)Absorption (acoustics)Particle (ecology)Attenuation coefficientParticulatesAttenuationChemistryParticle sizeFilter (signal processing)Environmental scienceEnvironmental chemistryAnalytical Chemistry (journal)Environmental engineeringMaterials scienceOpticsPhysicsComposite materialStatisticsComputer scienceOrganic chemistryMathematicsGeologyComputer visionPhysical chemistryOceanographyMarine Ecology and Invasive SpeciesMarine Biology and Environmental ChemistryWater Treatment and Disinfection