Photovoltaics for wastewater disinfection – pv magazine International – pv magazine International

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Researchers in Spain have developed a new system that simultaneously produces PV power and disinfects wastewater.

January 31, 2024

Researchers from Spain’s University of Jaen have developed a novel technology for wastewater disinfection and the production of PV energy.

The Open SoWat system is designed for tertiary treatment – the third and final process in wastewater treatment plants (WWTP). It is an upgrade of SolWat technology, which consists of a photochemical technology integrating PV modules and water disinfection reactors.

“To extend the system to commercial use, preliminary experimental studies need to be carried out using a large-scale prototype. Optimization of this technology will involve the use of energy-efficient water pumps. In addition, a study of their energy consumption and an economic analysis of the system will be carried out,” researcher J. Torres told pv magazine

“The tank is exposed to solar radiation and functions as a solar water disinfection reactor,” the scientists said, noting that in the classic SolWat closed configuration, an 18 mm thin film of wastewater is applied to the PV module, enclosed with borosilicate glass.

To test the feasibility of the system, the scientists have built two prototypes – the Small Open SolWat system and the large Open SolWat system.

“The first reactor consisted only of an L-shaped aluminum profile on top of the PV module, which was equipped with a perforated tube with 53 microtubes for the water outlet, spaced 1 cm apart,” they explained. “The second reactor was an open, translucent water tank measuring 62 cm x 45 cm x 18 cm.”

The largest prototype uses a 45 W module from UK manufacturer PV Logic, two water reactors and a magnetic coupling water pump with an average flow rate of 8.9 L/m manufactured by Germany’s Flojet Corporation. The smaller system uses a module with a nominal power of 5 W.

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After building the prototypes, the researchers placed them on a roof in the Spanish municipality of Linares and conducted a series of experiments. Those included physicochemical and microbiological analysis, as well as electrical performance.

“The Linares WWTP provided the experimental samples which were obtained directly after secondary treatment, which means it is not lab-prepared but natural water containing organic matter,” the scientists said. “The representative samples were always collected between 9:00 and 10:00 a.m. on the day of each experiment. The experiments were started around 11:00–12:00 p.m. local time, 2–3 hours before solar noon.”

The smaller setup showed energy losses of up to 2.89% compared to a reference system without cooling, due to partial shading from the system itself. However, in the case of the larger setup, the system improved electricity generation by 15% to 21%. Nevertheless, the researchers concluded that it did not significantly affect the final energy production of the classic SolWat reactors.

“The energy generated could be used to power the SolWat pumping system and meet other energy needs at a wastewater treatment plant,” the researchers concluded. “To achieve this in future research, it is intended to scale up the system to a larger prototype and optimize this technology using low water consumption pumps, as well as to carry out a study of its energy consumption.”

The researchers presented the system in “SolWat technology for simultaneous wastewater disinfection and higher energy generation utilizing PV module front surface,” which was recently published in the Journal of Water Process Engineering.

“The present research highlighted the Large Open SolWat system with the most optimal results in SolWat technology to date, both for solar water disinfection and for simultaneous energy production,” said Torres.

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