Bibliographic citations
Sánchez, M., Romero, J. (2019). Estabilización dinámica de suelos con erosión eólica para planta de tratamiento de aguas residuales en la nueva ciudad de Olmos - 2018 [Tesis, Universidad Privada del Norte]. https://hdl.handle.net/11537/23398
Sánchez, M., Romero, J. Estabilización dinámica de suelos con erosión eólica para planta de tratamiento de aguas residuales en la nueva ciudad de Olmos - 2018 [Tesis]. PE: Universidad Privada del Norte; 2019. https://hdl.handle.net/11537/23398
@misc{renati/515015,
title = "Estabilización dinámica de suelos con erosión eólica para planta de tratamiento de aguas residuales en la nueva ciudad de Olmos - 2018",
author = "Romero Pumayali, Jorge",
publisher = "Universidad Privada del Norte",
year = "2019"
}
The main objective of this research was to determine the effect of the dynamic stabilization of wind soils on the soil requirements of the wastewater treatment plant in the new city of Olmos. He used the Pre experimental design methodology. The population was composed of soil parameters before dynamic stabilization and after dynamic stabilization. The following instruments were used: Light Dynamic Penetration Test (DPL), Standard Penetration Test (SPT) and Field Density Test Standard AASHTO T-191. Regarding the results, it was concluded that the area where the WWTP and auxiliary works will be located, will be supported on sandy soils of fine grained, poorly graded sand of SP classification in the SUCS classification system, this is based on the data collected from the seismic analysis and the realization of 16 pits called C-118 to C123 and C-226 to C-227 and C-233 to C-247 that reached a depth of exploration of 3.50 m, 13 standard penetration tests SPT up to 11.45m, 27 light dynamic penetration tests called DPL-4 to DPL-9, from DPL-102 to DPL-107 and from DPL-116 to DPL-130 up to 8.10m depth of investigation. The carrying capacities required for the wastewater treatment plant range between 0.73 and 1.24 Kg / cm². Dynamic soil compaction was carried out, which consisted of soil cleaning, leveling and dynamic stabilization using vibratory rollers. Three types of stabilization were carried out, one for the administrative areas and participation chambers, the second for the treatment lagoons and a third for the containment dams. The dynamic stabilization improves the potent capacity of the soil above those required for the WWTP for the running foundation and the square footing. The required capacity was 0.73; g / cm² and 1 Kg / cm², achieving 1.7 Kg / cm². For the carrying capacity of the dike, 1.24 Kg / cm² was required, achieving 1.7 Kg / cm². So, it is concluded that the applied dynamic stabilization achieved that the soil has the required conditions for the wastewater treatment plant of the new city of Olmos.
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