Bibliographic citations
Novoa, D., (2023). Aprovechamiento de aguas residuales procedentes de una PTAR para la obtención de agua de riego mediante tecnologías de membranas [Universidad Nacional de Trujillo]. https://hdl.handle.net/20.500.14414/19870
Novoa, D., Aprovechamiento de aguas residuales procedentes de una PTAR para la obtención de agua de riego mediante tecnologías de membranas []. PE: Universidad Nacional de Trujillo; 2023. https://hdl.handle.net/20.500.14414/19870
@mastersthesis{renati/1046857,
title = "Aprovechamiento de aguas residuales procedentes de una PTAR para la obtención de agua de riego mediante tecnologías de membranas",
author = "Novoa Mauricio, Daniela Lizeth",
publisher = "Universidad Nacional de Trujillo",
year = "2023"
}
Water is the most precious natural resource on earth, which would not exist since then. Cases 70% of the land court is covered by this important resource. However, it is very abundant but only certain portions are for human consumption, which makes it necessary to minimize the waste of drinking water and opt for the reuse of wastewater. Under the previous approach, the following thesis aims to obtain water from the recovery from the use of wastewater from the PTAR of an oil refining industry using membrane technology techniques as secondary treatment. Membrane-based technology has evolved and diversified, existing in different areas, such as the treatment of residual effluents, from which they are used in bioreactors, called MBRs. As a new technology, However, several indicators suggest that MBRs are becoming more accepted as an election technology. The basic study of the vinegar refining industry presents a conventional treatment, which consists of a physical and chemical pretreatment, which eliminates the solids in the suspension of crude affluents and FOG (oils and fats) but does not allow obtaining water with the desired quality. quality for reuse, obtaining water with a high concentration of coliforms and E. Coli. That is why, through bibliographical consultation, consultation with experts and comparative analysis, an ultrafiltration membrane bioreactor is proposed as the most appropriate alternative for the proposed tertiary treatment that allows compliance with the quality required by current national legislation. On the other side, the main limitation of this academic work is the lack of more quality data collection of this type of effluents, in many cases, due to confidentiality and in others, due to presenting unreliable or unreliable data.
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