Citas bibligráficas
Verde, S., Aranibar, A. (2021). Propuesta del uso de agua residual de las plantas de tratamiento de Carapongo, San Antonio de Carapongo y Santa Clara para elaboración de concreto premezclado f'c = 210 kg/cm2 y disminución del uso de agua potable en Lima Metropolitana [Tesis, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/658495
Verde, S., Aranibar, A. Propuesta del uso de agua residual de las plantas de tratamiento de Carapongo, San Antonio de Carapongo y Santa Clara para elaboración de concreto premezclado f'c = 210 kg/cm2 y disminución del uso de agua potable en Lima Metropolitana [Tesis]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2021. http://hdl.handle.net/10757/658495
@misc{renati/398053,
title = "Propuesta del uso de agua residual de las plantas de tratamiento de Carapongo, San Antonio de Carapongo y Santa Clara para elaboración de concreto premezclado f'c = 210 kg/cm2 y disminución del uso de agua potable en Lima Metropolitana",
author = "Aranibar Huayhua, Aderly",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2021"
}
In Metropolitan Lima, there is no water in certain places and the supply is not uniform. Also the projections that are presented to the future show a deficit due as a resulto of high population demand and climate change, is essential to look up some ways that contribute to the saving of drinking wáter and the premix concrete industry, in the city has presented dizzy groth in the last years except for 2020 due to the COVID 19 with high demand for drinking wáter. Face with the problem raised, it is very feasible to use wasteater from treatment plants to make premix concrete. It was used four types of water. Three from Santa Clara, Carapongo and San Antonio de Carapongo wastewater treatment plants (PTARs) with a treatment system activated sludge, aeration and sand filters for the first. Anaerobic – Aerobic for the second and activated sludge and extended aeration for the third and drinking wáter from the material testing (LEM-UNI) to make concrete f'c=210 Kg/cm2 This research has 7 chapters: In the 1rst chapter presents us, the theorical framework is about the fundamental bases used. In the 2nd consists about materials and methods used where 116 samples in total were prepared for trials of axial compression, diametral compression traction, vending in beams and wáter permeability. In the 3rd chapter, the results of the specific objectives set and their interpretation. In the 4th last conclusions, in the 5th the recommendations and in the 6th the consulte references are presented. Finally, In the last chapter all the research annexes. It was concluded that is very feasible to makeconcrete with treated wastewater from 3 PTARs, since they presente an optimal behavior when evaluated in their physical, mechanical and durability properties.
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