Citas bibligráficas
Portales, J., Olivera, D. (2023). Factibilidad del uso de agua residual domestica tratada en la ciudad de Lima metropolitana de la planta de tratamiento de la Universidad Nacional Agraria la Molina para la elaboración de concretos f’c = 210 kg/cm2 y f’c=280 kg/cm2 [Trabajo de Suficiencia Profesional, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/670375
Portales, J., Olivera, D. Factibilidad del uso de agua residual domestica tratada en la ciudad de Lima metropolitana de la planta de tratamiento de la Universidad Nacional Agraria la Molina para la elaboración de concretos f’c = 210 kg/cm2 y f’c=280 kg/cm2 [Trabajo de Suficiencia Profesional]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2023. http://hdl.handle.net/10757/670375
@misc{renati/410139,
title = "Factibilidad del uso de agua residual domestica tratada en la ciudad de Lima metropolitana de la planta de tratamiento de la Universidad Nacional Agraria la Molina para la elaboración de concretos f’c = 210 kg/cm2 y f’c=280 kg/cm2",
author = "Olivera Lefbad, Diego",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2023"
}
This research is aims to verify the feasibility of use treated domestic wasterwater as a sustainable alternative in the production of concrete f’c=210 kg/cm2 and f’c=280 kg/cm2. We propose the production of concrete using domestic wastewater from the wastewater treatment plant (WTP) at The National Agrarian La Molina University (MNAU) in the Metropolitan City of Lima, following the guidelines of the Peruvian Technical Standard (PTS 339.088) for wáter quality in concrete. In the introduction, mentioned the background, the problem and the hypothesis in addition to the general and specific objetives. In chapter one, mentioned the theoretical framework, which involves the analysis of the fundamental concepts related to the treatment of treated domestic wastewater, as well as the concrete. Chapter two provide the research methodology, research level and design, and explain the procedures that include sequences of operations. In chapter three, the experimental framework, designs and mixing tests of the mortar and concrete samples are carried out, with water of proven quality and treated domestic wastewater. With respect to the concrete specimens f’c=210 kg/cm2 after 28 days in the compression test a f’c=249.96 kg/cm2 was obtained and a tensile test a f’c=23.95 kg/cm2, likewise in the concrete specimens with f’c=280 kg/cm2, in the compressions tests a f’c=297.30 kg/cm2 was reached and a tensile test a f’c=31.74 kg/cm2 was achieved with treated domestic wastewater. In addition, the interpretation of the test data on the mortar and concrete specimens is carried out. In chapter four, present conclusions and in chapter five, provides recommendations based on the analysis and process.
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