Water Science and Technology (Dec 2022)

UV Disinfection sensitivity index of spores or protozoa: A model to predict the required fluence of spores or protozoa

  • Zhao Wang,
  • Walter Z. Tang,
  • Mika Sillanpää,
  • Jinze Li

DOI
https://doi.org/10.2166/wst.2022.391
Journal volume & issue
Vol. 86, no. 11
pp. 2820 – 2833

Abstract

Read online

During UV disinfection, the required UV dose in terms of fluence depends upon the species of bacteria spore and protozoa. To rank their UV disinfection sensitivity, spore sensitivity index (SPSI) and protozoan sensitivity index (PSI) are defined. For spores, shoulder effect exists, therefore, SPSI is defined as the ratio between the ki of any spores for the linear portion of the dose response curve to the kir of Bacillus subtilis as the reference spore. After statistical analysis, the fluence of any spore can be predicted by SPSI through equation, H = (0.8358 ± 0.126)*LogI*SPSI + H0. PSI is defined as the ratio between the inactivation rate constants of a protozoa in reference to that of Cryptosporidium parvum. The equation predicting the fluence of any protozoa in reference to Cryptosporidium parvum is: H = 107.45*(3.86 ± 2.68)*LogI/PSI. Two regression equations suggest that protozoa require significantly higher UV dose than bacteria spores. HIGHLIGHTS UV sensitivity index of bacteria spore and protozoa were defined.; The UV fluence could be predicted by the UV sensitivity indexes.; Protozoa required significantly higher UV dose than that required by spores.;

Keywords