Sanli, Nazmiye Ozlem published the artcileEffects of material type on biofilm response to an oxidising biocide in a laboratory-scale cooling tower system: Effect of material type in response to biocide, Name: Sodium chloro(tosyl)amide trihydrate, the publication is Johnson Matthey Technology Review (2021), 65(2), 161-169, database is CAplus.
Biofilms in industrial cooling tower systems are an important problem. The importance of the surface material in the response to an oxidising biocide (chloramine T trihydrate) was substantiated in our study. Polyvinyl chloride (PVC) cooling tower fill material, stainless steel cooling tower construction material and glass surfaces were compared by evaluating the bacterial loads on materials before and after biocidal treatment. The greatest logarithmic decrease in bacterial load was recorded as >3 log for glass after the first two months and for PVC after the second month. Actively respiring bacterial counts and ATP (ATP) measurements showed that there was no significant difference in the sensitivity of biofilmassocd. cells to the biocide on the different surfaces. In addition, the effect of the biocidal treatment decreased with increasing biofilm age, regardless of the material.
Johnson Matthey Technology Review published new progress about 7080-50-4. 7080-50-4 belongs to chlorides-buliding-blocks, auxiliary class Halogenation Reagent,Inhibitor, name is Sodium chloro(tosyl)amide trihydrate, and the molecular formula is C7H13ClNNaO5S, Name: Sodium chloro(tosyl)amide trihydrate.
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https://en.wikipedia.org/wiki/Chloride,
Chlorides – an overview | ScienceDirect Topics