Study of Seawater Biofiltration by Measuring Adenosine Triphosphate (ATP) and Turbidity

Abstract: In the present study, we examined seawater biofiltration in terms of adenosine triphosphate (ATP) and turbidity. A pilot biofilter continuously fed with fresh seawater reduced both turbidity and biological activity measured by ATP.Experiments operated with an empty bed contact time (EBCT) of between 2 and 14 min resulted in cellular ATP removals of 32% to 60% and turbidity removals of 38% to 75%. Analysis of the water from backwashing the biofilter revealed that the first half of the biofilter concentrated aro… Show more

“…Voutchkov [1] has stated that the removal of soluble organics in some second stage GMF systems can account to 20-40% by biological filtration processes alone. Biological treatment has the potential to remove dissolved organic carbon and TEP of the source water without requiring expensive cleaning/purchase of coagulants or cleaning chemicals, energy intensive backwashing (increase in filter run times), and can reduce the replacement frequency of membranes over the duration of operation [39,40,[66][67][68].…”

Investigation of Algal Biotoxin Removal during SWRO Desalination through a Materials Flow Analysis

“…Voutchkov [1] has stated that the removal of soluble organics in some second stage GMF systems can account to 20-40% by biological filtration processes alone. Biological treatment has the potential to remove dissolved organic carbon and TEP of the source water without requiring expensive cleaning/purchase of coagulants or cleaning chemicals, energy intensive backwashing (increase in filter run times), and can reduce the replacement frequency of membranes over the duration of operation [39,40,[66][67][68].…”

Investigation of Algal Biotoxin Removal during SWRO Desalination through a Materials Flow Analysis

Slow sand filtration for biofouling reduction in seawater desalination by reverse osmosis