Bibliographic citations
Echevarria, K., (2023). Diseño, simulación y análisis de equipo de tratamiento compuesto por microorganismos usado para tratamiento de aguas residuales aplicado en unidad pesquera en el Perú [Tesis, Universidad de Ingeniería y Tecnología]. https://hdl.handle.net/20.500.12815/348
Echevarria, K., Diseño, simulación y análisis de equipo de tratamiento compuesto por microorganismos usado para tratamiento de aguas residuales aplicado en unidad pesquera en el Perú [Tesis]. PE: Universidad de Ingeniería y Tecnología; 2023. https://hdl.handle.net/20.500.12815/348
@misc{renati/231226,
title = "Diseño, simulación y análisis de equipo de tratamiento compuesto por microorganismos usado para tratamiento de aguas residuales aplicado en unidad pesquera en el Perú",
author = "Echevarria Hurtado, Kevinn Gilmer",
publisher = "Universidad de Ingeniería y Tecnología",
year = "2023"
}
In response to Supreme Decree No. 010-2019-VIVIENDA, which has been in force since March 2019 and establishes the Maximum Admissible Values (VMA) for nondomestic wastewater discharges into the Chimbote sanitary sewer system. This is overseen by SEDACHIMBOTE, and Article 8 of this decree urges industries to implement wastewater treatment systems. Fishing companies must comply with these VMAs to avoid penalties for excess concentration of parameters as established by the National Superintendence of Sanitation Services (SUNASS). For this, there are wastewater treatment methods, such as centrifugation, dissolved air flotation, vacuum evaporation, and cleaning methods with chemical inputs or microorganisms that degrade the cream from fat. We carry out the design of a mechanical equipment that will preserve the immobilized microorganisms and provide them with the appropriate conditions to degrade the fats and proteins accumulated in the grease traps. In addition, we carry out static and fluid simulations to determine the support, order and orifices of the containers, considering the flow rate exerted by the wastewater. The collaboration with the fishing company Hillary E.I.R.L. was crucial in obtaining technical data. In the results, it was shown that all three container supports meet the material strength requirements. In terms of the location of the containers in the tank, it was observed that the second order featured fluid stream lines that covered the containers in their entirety. In relation to the container holes, the hexagonal holes were found to exhibit a lower flow velocity, resulting in less turbulence and thus favoring greater grease particle capture.
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