Citas bibligráficas
Contreras, N., (2024). Diseño del sistema de evacuación de aguas residuales y planta de tratamiento mediante tanque Imhoff en el Centro Poblado San Martín de CP3, Tambogrande, Piura 2021 [Tesis, Universidad Privada Antenor Orrego]. https://hdl.handle.net/20.500.12759/18772
Contreras, N., Diseño del sistema de evacuación de aguas residuales y planta de tratamiento mediante tanque Imhoff en el Centro Poblado San Martín de CP3, Tambogrande, Piura 2021 [Tesis]. PE: Universidad Privada Antenor Orrego; 2024. https://hdl.handle.net/20.500.12759/18772
@misc{renati/373128,
title = "Diseño del sistema de evacuación de aguas residuales y planta de tratamiento mediante tanque Imhoff en el Centro Poblado San Martín de CP3, Tambogrande, Piura 2021",
author = "Contreras Paredes, Nataly Vanessa",
publisher = "Universidad Privada Antenor Orrego",
year = "2024"
}
In the present investigation, the topographic study was carried out with a precision of 10 cm/pixel, under clear skies, the relief identified on the site is steep and a total area of 52.84 hectares was covered, thus facilitating the location and mapping of the infrastructure. in general and providing facilities to locate areas with better conditions for the establishment of primary treatment structures, the number of inhabitants was obtained through a documentary implementation in which residents with a total of 2900 inhabitants were registered and thanks to the statistical formulation the future population was determined, which is a total of 3952.32 for a limit of 20 years, the maximum hourly flow obtained by the study is 11,769 l/s, but taking into account a return of 80%, which gives 9,415 l /s/Hab, this flow was insufficient for purposes of designing and evaluating the performance of sewerage networks, so it was decided that the network complies with the standards is minimum established by the norm, which indicates that at least a flow of 1.5 l/s is necessary in each section, based on the above, the adjustment and correction was made, the current proposal is made based on the natural runoff of the streets in order to obtain a sustainable solution that is not expensive to implement, and at the same time does not require significant changes in topography, but it must be emphasized that some streets will probably require a small volume to compensate for the slopes of the installed pipe and the depth of the inspection wells, the strategic location of the inspection pits with a depth not exceeding 1.20 m was also considered, the software used for modeling is SEWERCAD, although it has certain design limitations, it requires a lot of criteria, For this reason, the consultation at all times has been consistent with Peruvian regulations. Another point to highlight was the iteration of the software in relation to the diameters of the pipes used, in the latter the software was considered restrictive or, in the case of commercial diameters, to facilitate the acquisition of each of the pipes in the hypothetical future. , it is necessary to clarify that the software is effective in performance calculations, but ineffective in automating the process, since, as in S, they are recently totally based on technical criteria or, in this case, the researcher, finally the network is successfully sized
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