Visible light plays a significant role during bacterial inactivation by the photo-fenton process, even at sub-critical light intensities

Stefanos Giannakis, Rosa Mosteo, David Muzard, César Pulgarin, Angelica Varon Lopez
PERGAMON-ELSEVIER SCIENCE LTD, 2020
Journal paper

The aim of this research is to clarify the contribution of sunlight wavelengths, irradiance and Fe2+/H2O2 during bacterial disinfection by the photo-Fenton process in clear surface waters. We considered different solar spectrum distributions (visible, UVA-Visible), sub-critical irradiances (0-400 W/m(2)), focusing on the action modes of E. coli inactivation by the constituents involved in the composite process, at low tM reactants concentration (Fe2+/H2O2) in in ultrapure (MQ) water. We report that solar disinfection improved with Fenton reagents (photo-Fenton process) is a reality from very low light irradiance values (200 W/m(2)), and made possible even without the presence of UVA radiation, even when using low quantities of the Fenton reagents (0.5 mg/L Fe2+, 5 mg/L H2O2). Under light exposure, H2O2 was found to augment the intracellular Fenton process and Fe2+ to initiate further, distinct oxidative actions. Finally, validation was performed in Lake Geneva water over a wider irradiance range, where the photo-Fenton process was found to be reagent-dependent in low irradiance, shifting to light-driven in the higher values. (C) 2020 Elsevier Ltd. All rights reserved.

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Stefanos Giannakis, Rosa Mosteo, David Muzard, César Pulgarin, Angelica Varon Lopez
PERGAMON-ELSEVIER SCIENCE LTD, 2020
Journal paper

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https://infoscience.epfl.ch/record/277133?ln=en

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SODIS potential: A novel parameter to assess the suitability of solar water disinfection worldwide

Stefanos Giannakis, César Pulgarin, Sofia Samoili

This paper studies the worldwide applicability of solar water disinfection (SODIS) technology through a novel parameter: the SODIS potential. This parameter is defined as the inverse ratio between the required exposure time to achieve a four log disinfection of E. coli and the six hours recommended by the standard SODIS protocol. The E. coli inactivation kinetics was predicted by fitting the results under different temperature and incident radiation to a semi-empirical inactivation model, including a synergy term between bacterial stress sources (light/heat). To estimate the SODIS potential, a solar calculator was developed based on the Sun's position, atmospheric extinction, cloud-cover, and elevation. The time-varying total incident radiation available at any location worldwide was estimated for each day along the year during sunlight hours. The time-varying temperature was also estimated from minimum and maximum values, introducing its dynamic variation along with the solar exposure of the water. Both incident radiation and temperature values are input into the kinetic model to estimate the disinfection rate. Based on these values, the number of batch disinfections that can reach the goal of 99.99% bacterial elimination in 1 day and the minimum daily time required to achieve this goal is computed; the latter is finally transformed to the SODIS potential. The results of the study, illustrated as contours indicating the SODIS potential and other relevant indicators overlayed on a world map, confirm that latitude has a significant contribution to the SODIS potential, with the highest values close to the equator. However, the results also highlight the importance of temperature and cloud-cover, with critical differences between equal latitude regions.

ELSEVIER SCIENCE SA2021

Dramatic enhancement of solar disinfection (SODIS) of wild Salmonella sp in PET bottles by H2O2 addition on natural water of Burkina Faso containing dissolved iron

César Pulgarin, Julian Andrés Rengifo Herrera, Frédéric Sciacca

Disinfection of surface water containing dissolved iron (0.3 mg L-1) at natural neutral pH (similar to 7.5) was carried out via solar disinfection (SODIS) treatment in PET bottles with H2O2 (10 mg L-1). Wild coliforms and Salmonella sp. were monitored for 6 h of sunlight irradiation and 72 h of dark post-treatment period. In our conditions, SODIS treatment Could not avoid Salmonella sp. re-growth during dark storage, meanwhile the addition of 10 mg L-1 of H2O2 showed a strong enhancement of the inactivation rate without any re-growth of both bacteria. Finally, total coliforms (Escherichia coli included) demonstrated to be an inappropriate indicator for monitoring bacterial contamination in water during solar disinfection processes. (C) 2009 Elsevier Ltd. All rights reserved.

2010

Field solar E-coli inactivation in the absence and presence of TiO2: is UV solar dose an appropriate parameter for standardization of water solar disinfection?

César Pulgarin

Evaluation of solar treatment in the absence and presence of TiO2 has been made to assess its effectiveness in reducing bacterial load with respect to drinking water standards. Field experiments under direct solar radiation were carried out using a compound parabolic collector (CPC) placed at the Swiss Federal Institute of Technology (EPFL), Lausanne, Switzerland. Water contaminated with E coli K12 was exposed to sunlight in different seasons. The obtained results indicate that the presence of TiO2 accelerates the detrimental action of light. Total photocatalytic disinfection was obtained in both periods of year and no bacterial recovery was observed during 24h after stopping sunlight exposure. In the absence of TiO2, total disinfection was not always reached; and bacterial recovery was observed, especially when inactivation was not complete. Bacterial decay was mainly dependent on light intensity. It was also demonstrated that solar UV dose is not a pertinent parameter to standardize solar disinfection. The influence of the following topics on solar water disinfection is also studied in this paper: (a) UV and total solar spectra characteristics (b) volume of phototreated water (c) post-irradiation events. (C) 2004 Elsevier Ltd. All rights reserved.

2004

Solar irradiance

Solar irradiance is the power per unit area (surface power density) received from the Sun in the form of electromagnetic radiation in the wavelength range of the measuring instrument. Solar irradi

Water

Water is an inorganic compound with the chemical formula . It is a transparent, tasteless, odorless, and nearly colorless chemical substance, and it is the main constituent of Earth's hydrosphere and

Solar water disinfection

Solar water disinfection, in short SODIS, is a type of portable water purification that uses solar energy to make biologically-contaminated (e.g. bacteria, viruses, protozoa and worms) water safe to