Simulation of energy consumption for the heating of an experimental housing module located at 4500 msnm
DOI:
https://doi.org/10.21754/tecnia.v21i1.1083Keywords:
Energy Simulation, EnergyPlus, Neutral Temperature, Thermal Energy DemandAbstract
In the present work, the energy demand is simulated for an experimental housing module built in the village of Imata, Peru, located at 4500 masl. Prior, the temperature measurements and the energy calculations necessary to validate the simulation model with the program EnergyPlus were performed. To maintain a neutral temperature of 12 ° C in July and 15 °C in December, the simulation indicated that 3,54 MWh are needed yearly, with a daily maximum of 11 kWh in July and a daily minimum of 8,4 kWh in December (monthly averages).
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References
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[2] Catalogo No. FT-G001-201801, Policarbonato Glanze Ficha Técnica, Glanze, Lima, Perú.
[3] Google Maps. (2020, Dic 12) GoogleMaps Imata [Imagen satelital, Online]. Available: https://www.google.com.pe/maps/place/15%C2%B050'23.5%22S+71%C2%B005'34.8%22W/@-15.839872,-71.0940843,414m/data=!3m2!1e3!4b1!4m6!3m5!1s0x0:0x0!7e2!8m2!3d-15.839872!4d-71.0929901?hl=es-419&authuser=0. [Accessed Feb. 01, 2021].
[4] M. A. Humphreys, Field Studies of Thermal Comfort Compared and Applied. Building Research Establishment. Current Paper (76/75), U.K.: Dept. of Environment, 1975
[5] M. A. Humphreys, Comfortable indoor temperatures related to the outdoor air temperature. Building Research Establishment (Note PD117/76), U.K.: Dept. of Environment, 1976
[6] Ministerio de Vivienda, Construcción y Saneamiento. (2014, May 13). Confort Térmico y Lumínico con Eficiencia Energética. (Norma EM. 110). Available: http://www3.vivienda.gob.pe/dnc/archivos/Estudios_Normalizacion/Normalizacion/normas/DS-006-2014-VIVIENDA.pdf. [Accessed: Feb. 01, 2021]
[7] J. O. Molina, G. Lefebvre, M. Horn, & M. M. Gómez, “Design of an experimental bioclimatic module obtained from the analysis of thermal simulations for the community of Imata (4519 m A.S.L.), located in Arequipa”, Perú. Informacion Tecnologica, Vol. 31, N. 2, pp. 173–185. 2020
[8] J. O. Molina, M. Ponce, M. Horn & M.M. Gómez. Towards a sustainable bioclimatic approach for the Peruvian high Andean rural area: Evaluation of the thermal contribution of a greenhouse attached to a dwelling. Proceedings of the ISES Solar World Congress, 2019, pp. 355–364. 2020
[9] M. E. Saleh, “Adobe as a thermal regulating material”. Solar & wind technology, Vol. 7, N. 4, pp. 407-416. 1990
[10] Servicio Nacional de Meteorología e Hidrología del Perú. [Registros de datos, Online] "Estaciones Automáticas". Available: https://web2.senamhi.gob.pe/?p=estaciones--automaticas. [Accessed: Feb. 01, 2021]
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Published
2021-06-18
How to Cite
[1]
P. R. Ratache Rojas, C. E. R. Cabanillas, M. Horn Mutschler, and M. M. Gómez León, “Simulation of energy consumption for the heating of an experimental housing module located at 4500 msnm”, TECNIA, vol. 31, no. 1, pp. 35–41, Jun. 2021.
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Section
Solar and photovoltaic energy
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Articles published by TECNIA can be shared under the international Creative Commons license: CC BY 4.0. Permissions beyond this scope can be inquired via email at tecnia@uni.edu.pe.
