Browsing by Author "Torres-Lozada, Patricia"

Now showing 1 - 2 of 2
  • No Thumbnail Available
    Item
    Influencia del riego con aguas residuales domésticas tratadas sobre el contenido de patógenos en un suelo cultivado con caña de azúcar
    (Universidad Santiago de cali, 2014-09-29) Silva-Leal, Jorge; Torres-Lozada, Patricia; Madera-Parra, Carlos
    Esta investigación evaluó el efecto de la irrigación con agua residual tratada, sobre el contenido de coliformes totales, E.coli y huevos de helmintos de un suelo cultivado con caña de azúcar. Se emplearon tres aguas de riego: agua de pozo, agua residual tratada por Tratamiento Primario Avanzado [TPA] y agua residual tratada por Tratamiento Primario Convencional [TPC] y se realizó seguimiento durante los doce meses de cultivo. Aunque los resultados mostraron que las aguas residuales evaluadas presentan restricción en su uso para riego agrícola, por los valores altos de coliformes totales, E. Coli y huevos de helmintos, las variables microbiológicas evaluadas al suelo mostraron que la concentración de E. Coli disminuyó desde el día de la siembra hasta el día de la cosecha y el análisis estadístico de las variables microbiológicas mostró que no existen diferencias estadísticas significativas entre los valores medios de los tratamientos.
  • No Thumbnail Available
    Item
    Risk assessment in water treatment processes for the development of a water safety plan – WSP
    (Universidad Nacional de Colombia, 2018-07-01) Pérez-Vidal, Andrea; Escobar-Rivera, Juan Carlos; Torres-Lozada, Patricia
    Drinking Water Treatment Plants (DWTP) must ensure safe water supply; to this end, we applied risk assessment tools for the development of the Water Safety Plan (WSP) in a DWTP from Cali-Colombia, which supplies 1.4 million inhabitants. For the identification of hazards and risk assessment, four tools were used: exploratory analysis of turbidity data, inspection visits, hazard/hazardous event matrix and semiquantitative matrix. Under normal and extreme conditions of turbidity (>400-2500 UNT), it has been guaranteed the turbidity of treated water of 0.39 ± 0.15 UNT, showing the robustness of the DWTP. It was found that sixty percent of the 40 hazardous events had a very high risk level without considering control measures and it was possible reduce to 7% with existing control measures. The improvement or support programs should be directed towards the treatment phases identified as priority (chemical conditioning, coagulation, flocculation/clarification and filtration). © The author; licensee Universidad Nacional de Colombia.

Higher Education Institution subject to inspection and surveillance by the Ministry of National Education.
Legal status granted by the Ministry of Justice through Resolution No. 2,800 of September 2, 1959.
Recognized as a University by Decree No. 1297 of 1964 issued by the Ministry of National Education.

Institutionally Accredited in High Quality through Resolution No. 018144 of September 27, 2021, issued by the Ministry of National Education.

Ciudadela Pampalinda

Calle 5 # 62-00 Barrio Pampalinda
PBX: +57 (602) 518 3000
Santiago de Cali, Valle del Cauca
Colombia

Headquarters Centro

Carrera 8 # 8-17 Barrio Santa Rosa
PBX: +57 (602) 518 3000
Santiago de Cali, Valle del Cauca
Colombia

Palmira Section

Carrera 29 # 38-47 Barrio Alfonso López
PBX: +57 (602) 284 4006
Palmira, Valle del Cauca
Colombia

DSpace software copyright © 2002-2024 LYRASIS


Hosting & Support