Bibliographic citations
Mendoza, P., Evangelista, J. (2022). Estudio del potencial geotérmico de muy baja entalpía y propiedades térmicas de las rocas y suelos de la región Moquegua para la futura implementación de cimentaciones termoactivas y climatización de infraestructura pública y privada [Tesis, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/666965
Mendoza, P., Evangelista, J. Estudio del potencial geotérmico de muy baja entalpía y propiedades térmicas de las rocas y suelos de la región Moquegua para la futura implementación de cimentaciones termoactivas y climatización de infraestructura pública y privada [Tesis]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2022. http://hdl.handle.net/10757/666965
@misc{renati/403624,
title = "Estudio del potencial geotérmico de muy baja entalpía y propiedades térmicas de las rocas y suelos de la región Moquegua para la futura implementación de cimentaciones termoactivas y climatización de infraestructura pública y privada",
author = "Evangelista Huari, Jean Pierre",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2022"
}
This present thesis proposes preliminary maps that will allow zoning of representative zones, since depending on the territory there maybe different materials or others, based on their surface geothermal potential of rocks and soils in the Moquegua region. The thermal properties and the geothermal gradient will be determined. at very low enthalpy. The Geological, Mining and Metallurgical Institute (INGEMMET) (2014), conducts geothermal studies focused on geothermal energy (hot springs) to generate electricity, which is not part of this study, since surface geothermal energy is found in formations geological formations of rocks and soils at a depth of less than 15 m from the earth's crust and tend to have a temperature of less than 30°C. This modeling of maps may encourage the implementation of thermoactive foundations in vulnerable places, with extreme cold temperatures as well as in hot areas. This system has vertical capture thermoactive piles, which will allow the generation of heating for public and private infrastructures. Currently, there are surface geothermal projects worldwide, which have managed to reduce pollutants, improve the economy and provide good thermal comfort. In this way, the application of these thermoactive foundations in Peru would be feasible, since there are regions with intense climate conditions (hot and cold), affecting homes, hospitals, mining centers and schools due to the lack of thermal comfort, which It would be one more initiative to commit to renewable energy. It would also mean economic savings in electricity consumption.
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