Renewable energies have proven to be a useful and efficient alternative in the process of energy consumption at a domestic and industrial level. The fossil materials that have sustained the demand for the operation of any type of engine that have generated a negative impact on the environment. New photovoltaic energy alternatives, such as lithium batteries, hydrogen cells, and solar concentrators, promise to generate a significant contribution to replace the consumption of oil and coal. The main objective of this work is to show the implementation of a solar radiation concentration system to increase the temperature and take advantage of the heat flow for community use. Its operation is based on converging lenses and Fresnel. The methodology of this work contains a model to scale for the use of solar energy |using the principles of refractive physics. The model was developed in three phases, the first includes the designs of the models, the second corresponds to the construction of the prototypes, and the last determines the programming, analysis, and operation of the mechanism. The results indicate that solar heaters that take advantage of the rays that pass through converging lenses are defined as an alternative for the use and transformation of the sun's energy into thermal energy. This work shows the novelty by implementing a mechanism in the prototype called solar tracker, which allows positioning according to the relative movement of the earth, to increase the efficiency of solar rays, massive financing of this type of project is recommended in the process of drying harvested grain to mitigate the problem of global warming. Keywords: Energy Consumption, Converging Lens, the Fresnel Lens, Solar Radiation DOI: https://doi.org/10.35741/issn.0258-2724.58.4.93
