Hilario López-Xelo scite author profile

Cabrera-Pérez

et al. 2019

JRE

Photovoltaic systems with Fresnel lenses are expensive, as well as technologically complex, due to their optical, mechanical and control components. In addition, all these systems are sensitive to operation and maintenance costs. This article proposes the use of commercial Fresnel lenses to improve the efficiency of photovoltaic modules, in conjunction with a fuzzy intelligent controlled solar tracking system with two-axis and a novel low-cost robotic cleaning system. The basic idea is that this system optimizes the production of electricity in an economically and technologically simple way. The technology of Arduino microcontrollers and fuzzy logic for control, as well as the geometry of Fresnel lenses, will be used to concentrate solar energy in a small area, not to mention that these optical devices have a low weight. The accumulated effect of energy production will be improved by a novel low cost robotic cleaning system. The alignment and perpendicularity of the impact of solar energy on photovoltaic cells must be maintained as much as possible and the performance of this system must be compared with other more expensive and technologically more complex commercial systems.

Implementación de Motor Stirling para generación de energía eléctrica limpia empleando una lente de Fresnel

Pérez-Martínez

et al. 2019

JSI

In search of expanding the generation of electric power and reduce the burning of fossil fuels. It is proposed to use the tools that already have and the necessary information to make a prototype of Alfa type Stirling engine, which is a thermal machine with low levels of noise and toxic emissions, that its relative design is of low manufacturing cost for the generation of clean electrical energy, for the heating we will use a Fresnel lens with the purpose of satisfying the thermal energy demand of the same, in the sense of achieving the best angle of capture of solar rays, at the same time achieving the highest concentration of heat possible for the heating angle of the motor. The validation of the proposed model is based on experimental results, using the information obtained from the production of electrical energy, with this the validation of the prototype will be performed, similar to the solar parabolic dish concentrator.

Ethanol as an alternative to water vapor for saving energy and fossil fuels in thermoelectric plants

2021

JRE

This article proposes the use of ethanol in a 96% azeotropic mixture as an alternative to water vapor in thermoelectric generators with notable advantages in saving fuel. As is known, water is a cheap resource, available everywhere in a liquid state. However, water has an unusually high heat of vaporization and an equally high boiling point, so converting water to steam requires consuming large amounts of fossil fuels to break the hydrogen bonds in this substance. In contrast, evaporating ethanol requires only 37 percent of the fuel needed to evaporate water. In addition, water, before turning into steam, needs to be softened and treated with chemicals to prevent oxidation and scale deposits in pipes. If quality ethanol is used, this process of adjusting the water would not be necessary, which represents another saving. On the other hand, it is possible to resort to the use of solar heaters to raise the temperature of the ethanol to around 70ºC to later heat it to 80ºC or more, if necessary, with fossil fuels, making more significant savings. Objectives: To propose the replacement of water vapor by ethanol vapor as a working fluid to move the turbines of thermoelectric plants to reduce the consumption of fossil fuels. Methodology: Analyze the physical properties of water and compare them with those of ethanol to know the advantages and disadvantages of one and the other as working fluids Contribution: Through small modifications in thermoelectric plants it is possible to reconvert them to operate with ethanol vapor and save on fossil fuels.

Analysis of the scientific production on renewable energies within the framework of sustainability in Mexico

Luna

2021

JRE

With the turn of the 20th century to the 21st, the urgent need to carry out a critique of the current techno-energy pattern, which is based on the intensive use of fossil fuels, becomes more evident. Derived from this productive, energy and material consumption of gas and oil, the conditions have been generated for the configuration of an environmental crisis. In such a way that, there is an urgent need to carry out research that explores the various alternative sources of energy that today appear as an alternative to reduce the negative impact of industrial, agro-industrial and urban activities on the environment. This paper reflects on the problems that exist in Mexico around the development and marginal adoption of renewable energies as a productive source. While 91.2% of energy in Mexico is produced by burning fossil fuels, it can be established that the energy structure in Mexico is unsustainable. For this reason, a change in energy thinking based on efficiency and sustainability is required, considering both as axes for the use of renewable energies. The goals of the article are: 1) to present a context study, analyzing the production of electrical energy with fossil sources in Mexico, alluding to the difficulty of the transition towards the use of renewable energies. Second, the production of renewable energies in the country is analyzed to find out if investment in them is sustainable.