4.7 Review

Advances in application of ultraviolet irradiation for biofilm control in water and wastewater infrastructure

Journal

JOURNAL OF HAZARDOUS MATERIALS
Volume 421, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.jhazmat.2021.126682

Keywords

Ultraviolet; Biofilm; Water; Disinfection; UV LED

Funding

  1. National Natural Science Foundation of China [21736009]
  2. Fundamental Research Funds for the Central Universities [20720200053]

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This review paper summarizes the latest research on using UV to control biofilms in water and wastewater infrastructure, including the development of UV light sources, resistance mechanisms of biofilms to UV, and the feasibility of using UV to control biofilms. The paper also provides a comprehensive evaluation of the biofilm-targeted UV technologies currently used or potentially useful in the water industry.
Biofilms are ubiquitous in aquatic environment. While so far, most of the ultraviolet (UV) disinfection studies focus on planktonic bacteria, and only limited attention has been given to UV irradiation on biofilms. To enrich this knowledge, the present paper reviews the up-to-date studies about applying UV to control biofilms in water and wastewater infrastructure. The development of UV light sources from the conventional mercury lamp to the light emitting diode (LED), and the resistance mechanisms of biofilms to UV are summarized, respectively. Then the feasibility to control biofilms with UV is discussed in terms of three technical routes: causing biofilm slough, inhibiting biofilm formation, and inactivating bacteria in the established biofilm. A comprehensive evaluation of the biofilm-targeted UV technologies currently used or potentially useful in water industry is provided as well, after comparative analyses on single/combined wavelengths, continuous/pulsed irradiation, and instant/chronic disinfection effects. UV LEDs are emerging as competitive light sources because of advantages such as possible selection of wavelengths, adjustable emitting mode and the designable configuration. They still, however, face challenges arising from the low wall plug efficiency and power output. At last, the implementation of the UV based advanced oxidation processes in controlling biofilms on artificial surfaces is overviewed and their synergistic mechanisms are proposed, which further enlightens the prospective of UV in dealing with the biofilm issue in water infrastructure.

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