Determination of Solar Energy for the Bioclimatic Design of Housing in the City of Juliaca Peru
International Journal of Energy and Environmental Science
Volume 4, Issue 1, January 2019, Pages: 1-9
Received: Nov. 9, 2018; Accepted: Mar. 4, 2019; Published: Mar. 28, 2019
Views 816      Downloads 120
Elmer Rodrigo Aquino Larico, Department of Engineering in Renewable Energies, National University of Juliaca, Juliaca, Peru
Article Tools
Follow on us
Solar energy is an inexhaustible source, clean and does not pollute the environment being a resource that can be used. The objective of this research work is to determine solar energy for the bioclimatic design of houses in the city of Juliaca for two systems: solar photovoltaic for the generation of electric power and solar thermal for water heating. In the development of this project the daily measurement for three months of the solar irradiation was made with a solar measuring instrument MAC-SOLAR Solarimeter SLM018c-2, where the Peak Sun Hours (HSP) were determined with the methodology of negative asymmetric distribution of 6.632 kwh/m2/day and an average irradiation value of 1110.04 w/m2 in the city of Juliaca, with an optimum time interval from 9:00 am to 3:00 pm irradiation during the day, which has allowed modeling the behavior of solar energy for the design of a photovoltaic and thermal solar system; In addition, an experimental radiant floor module has been built in a bioclimatic room, which by recirculation of hot water through the floor reaches an average temperature of 20.93ºC from 6:00 am to 9:00 pm, being within the zone of comfort of the Givoni Psychometric Diagram and the Peruvian Technical Standard (NTP).
Bioclimatic, Solar, Photovoltaic, Irradiation, Thermal and Radiant Floor
To cite this article
Elmer Rodrigo Aquino Larico, Determination of Solar Energy for the Bioclimatic Design of Housing in the City of Juliaca Peru, International Journal of Energy and Environmental Science. Vol. 4, No. 1, 2019, pp. 1-9. doi: 10.11648/j.ijees.20190401.11
Copyright © 2019 Authors retain the copyright of this article.
This article is an open access article distributed under the Creative Commons Attribution License ( which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
C. Bulei, M.-P. Todor, D. D. Cornea, and I. Kiss, "Solar Air Heating Collectors in two Modular Solar Panels Build Into A Do-It-Yourself Type Project using Photovoltaic Cells and Recycled Aluminum Cans," Acta Technica Corvininesis - Bulletin of Engineering, vol. 10, pp. 44-49, 2017.
C. Bertrand, C. Housmans, J. Leloux, and M. Journée, "Solar irradiation from the energy production of residential PV systems," Renewable Energy, vol. 125, pp. 306-318, 2018/09/01/ 2018.
S. Pili, G. Desogus, and D. Melis, "A GIS tool for the calculation of solar irradiation on buildings at the urban scale, based on Italian standards," Energy and Buildings, vol. 158, pp. 629-646, 2018/01/01/ 2018.
N. Sarmiento, S. Belmonte, P. Dellicompagni, J. Franco, K. Escalante, and J. Sarmiento, "A solar irradiation GIS as decision support tool for the Province of Salta, Argentina," Renewable Energy, vol. 132, pp. 68-80, 2019/03/01/ 2019.
I. Majumder, P. K. Dash, and R. Bisoi, "Variational mode decomposition based low rank robust kernel extreme learning machine for solar irradiation forecasting," Energy Conversion and Management, vol. 171, pp. 787-806, 2018/09/01/ 2018.
S. Motahhir, A. El Hammoumi, and A. El Ghzizal, "Photovoltaic system with quantitative comparative between an improved MPPT and existing INC and P&O methods under fast varying of solar irradiation," Energy Reports, vol. 4, pp. 341-350, 2018/11/01/ 2018.
I. Gašparović, M. Gašparović, and D. Medak, "Determining and analysing solar irradiation based on freely available data: A case study from Croatia," Environmental Development, vol. 26, pp. 55-67, 2018/06/01/ 2018.
C. Voyant and G. Notton, "Solar irradiation nowcasting by stochastic persistence: A new parsimonious, simple and efficient forecasting tool," Renewable and Sustainable Energy Reviews, vol. 92, pp. 343-352, 2018/09/01/ 2018.
G. Notton, "Building integrated solar thermal systems presentation and zoom on the solar potential," Romanian Journal of Civil Engineering / Revista Romana de Inginerie Civila, vol. 8, pp. 1-11, 03// 2017.
S. Hands, S. Sethuvenkatraman, M. Peristy, D. Rowe, and S. White, "Performance analysis & energy benefits of a desiccant based solar assisted trigeneration system in a building," Renewable Energy, vol. 85, pp. 865-879, 1// 2016.
T. Gutiérrez, R. Romero, and C. Sotelo, "Thermal Energy Impact of Bioclimatic Techniques Applied to Low-income Housing in a Hot Dry Climate," Energy Procedia, vol. 57, pp. 1743-1752, 1/1/2014 2014.
J. Ratanachotinun, N. Kasayapanand, J. Hirunlabh, S. Visitsak, S. Teekasap, and J. Khedari, "A design and assessment of solar chimney of bioclimatic house wall and roof for construction in the housing market of Thailand," Building Services Engineering Research & Technology, vol. 37, pp. 694-709, 2016.
D. L. Zr and S. Mochtar, "Application of Bioclimatic Parameter as Sustainability Approach on Multi-story Building Design in Tropical Area," Procedia Environmental Sciences, vol. 17, pp. 822-830, 1/1/2013 2013.
E. De Angelis, L. C. Tagliabue, F. R. Cecconi, and A. G. Mainini, "A Simple Method for the Comparison of Bioclimatic Design Strategies Based on Dynamic Indoor Thermal Comfort Assessment for School Buildings," Procedia Engineering, vol. 180, pp. 870-880, 1/1/2017 2017.
T. Hassboun, L. El Bahir, Y. Aite Driss, and M. El Adnani, "Solar irradiation estimator based on a self-calibrated reference solar cell," Turkish Journal of Electrical Engineering & Computer Sciences, vol. 24, pp. 4885-4899, 2016.
M. Hartner, A. Ortner, A. Hiesl, and R. Haas, "East to west – The optimal tilt angle and orientation of photovoltaic panels from an electricity system perspective," Applied Energy, vol. 160, pp. 94-107, 12/15/ 2015.
P. Si, Y. Lv, X. Liu, X. Rong, and Y. Feng, "An Optimization Model Applied to Active Solar Energy System for Buildings in Cold Plateau Area," Energy Procedia, vol. 88, pp. 443-449, 6/1/June 2016 2016.
A. Carreño-Ortega, E. Galdeano-Gómez, J. C. Pérez-Mesa, and M. del Carmen Galera-Quiles, "Policy and Environmental Implications of Photovoltaic Systems in Farming in Southeast Spain: Can Greenhouses Reduce the Greenhouse Effect?," Energies (19961073), vol. 10, pp. 1-24, 2017.
A. Girard, E. J. Gago, J. Ordoñez, and T. Muneer, "Spain's energy outlook: A review of PV potential and energy export," Renewable Energy, vol. 86, pp. 703-715, 2// 2016.
R. Affandi, M. R. A. Ghani, C. K. Ghan, and L. G. Pheng, "The Impact of the Solar Irradiation, Collector and the Receiver to the Receiver Losses in Parabolic Dish System," Procedia - Social and Behavioral Sciences, vol. 195, pp. 2382-2390, 7/3/3 July 2015 2015.
R. A. Suárez, G. Abal, P. Musé, and R. Siri, "Satellite-derived Solar Irradiation Map for Uruguay," Energy Procedia, vol. 57, pp. 1237-1246, 1/1/2014 2014.
Y. Matsumoto, M. Valdés, J. A. Urbano, T. Kobayashi, G. López, and R. Peña, "Global Solar Irradiation in North Mexico City and Some Comparisons with the South," Energy Procedia, vol. 57, pp. 1179-1188, 1/1/2014 2014.
L. Jiandong, P. Tao, C. Deliang, Z. Xiuji, Y. Qiang, G. N. Flerchinger, et al., "An Improved Ångström-Type Model for Estimating Solar Radiation over the Tibetan Plateau," Energies (19961073), vol. 10, pp. 1-28, 2017.
E. Kiplangat Ronoh, "Prediction of total solar irradiance on tilted greenhouse surfaces," Agricultural Engineering International: CIGR Journal, vol. 19, pp. 114-121, 2017.
SENAMHI, "Parametros Climatologicos Promedio en Juliaca," ed, 2017.
K. Velmurugan, W. Christraj, N. Kulasekharan, and T. Elango, "Performance Study of a Dual-Function Thermosyphon Solar Heating System," Arabian Journal for Science & Engineering (Springer Science & Business Media B.V.), vol. 41, pp. 1835-1846, 2016.
R. Singh and R. Banerjee, "Impact of Solar Panel Orientation on Large Scale Rooftop Solar Photovoltaic Scenario for Mumbai," Energy Procedia, vol. 90, pp. 401-411, 12/1/December 2016 2016.
H. Rezk, I. Tyukhov, and A. Raupov, "Experimental implementation of meteorological data and photovoltaic solar radiation monitoring system," International Transactions on Electrical Energy Systems, vol. 25, pp. 3573-3585, 2015.
L. Goosang Joe, A. Dongwoo Kim, O. Sanghoon Park, S. Sojeong Park, M. Myoungsouk Yeo, and S. Kwangwoo Kim, "Downdraft Assessment of Glass Curtain Wall Buildings with a Radiant Floor Heating System," Applied Sciences (2076-3417), vol. 7, pp. 1-23, 10// 2017.
K. Dong-Woo, J. Goo-Sang, P. Sang-Hoon, Y. Myoung-Souk, and K. Kwang-Woo, "Experimental Evaluation of the Thermal Performance of Raised Floor Integrated Radiant Heating Panels," Energies (19961073), vol. 10, pp. 1-18, 2017.
B. Givoni, Man, Climate and Architecture. New York: EE-UU, 1969.
Science Publishing Group
1 Rockefeller Plaza,
10th and 11th Floors,
New York, NY 10020
Tel: (001)347-983-5186