Resumen
The accelerated growth of the world’s population generates large volumes of domestic wastewater, therefore the
objective of this research was to perform the photocatalytic treatment and reuse of kitchen greywater by using a
laboratory scale and pilot plant, TiO2 films, deposited on commercial glass substrates and laminar biochar of
Guadua, through peroxo sol-gel (PSG), atomic layer deposition (ALD) and magnetron sputtering (MS) methods;
laboratory-scale tests involved films deposited by peroxo sol-gel (PSG), atomic layer depositions (ALD), and
magnetron sputtering (MS); later the two less expensive with best results were evaluated in the pilot plant,
composed of a homogenisation tank, a filtration system and the photocatalysis reactor. Laboratory results
showed that all three kinds of TiO2 films inactivated >70 % of Escherichia coli after 120 min of K-GW treatment
and were successfully reusable for five cycles with an inactivation efficiency >48 %. Pilot plant results with the
PSG and MS deposited films, an overall efficiency for E. coli inactivation of 93 ± 6 and 88 ± 4 %, respectively,
was obtained at 140 min, as well as an efficiency above 90 % for chemical oxygen demand and nitrite removal. In
addition, the treated greywater favoured the “in vitro” germination of Lactuca sativa L. and Lolium perenne seeds
and complied with 95 % of the U.S. standards for water reuse. The pilot plant with TiO2 films offered an effective
solution to inactivate Escherichia coli and remove contaminants.
objective of this research was to perform the photocatalytic treatment and reuse of kitchen greywater by using a
laboratory scale and pilot plant, TiO2 films, deposited on commercial glass substrates and laminar biochar of
Guadua, through peroxo sol-gel (PSG), atomic layer deposition (ALD) and magnetron sputtering (MS) methods;
laboratory-scale tests involved films deposited by peroxo sol-gel (PSG), atomic layer depositions (ALD), and
magnetron sputtering (MS); later the two less expensive with best results were evaluated in the pilot plant,
composed of a homogenisation tank, a filtration system and the photocatalysis reactor. Laboratory results
showed that all three kinds of TiO2 films inactivated >70 % of Escherichia coli after 120 min of K-GW treatment
and were successfully reusable for five cycles with an inactivation efficiency >48 %. Pilot plant results with the
PSG and MS deposited films, an overall efficiency for E. coli inactivation of 93 ± 6 and 88 ± 4 %, respectively,
was obtained at 140 min, as well as an efficiency above 90 % for chemical oxygen demand and nitrite removal. In
addition, the treated greywater favoured the “in vitro” germination of Lactuca sativa L. and Lolium perenne seeds
and complied with 95 % of the U.S. standards for water reuse. The pilot plant with TiO2 films offered an effective
solution to inactivate Escherichia coli and remove contaminants.
| Idioma original | Inglés |
|---|---|
| Número de artículo | 108100 |
| Número de páginas | 17 |
| Publicación | Journal of Water Process Engineering |
| Volumen | 76 |
| DOI | |
| Estado | Publicada - ago. 2025 |