• Tuesday June 2,2020

Solar energy

We explain what solar energy is and how it is produced. In addition, what it is for, and what are its advantages and disadvantages.

Solar panels will convert solar radiation into usable electrical energy.
  1. What is solar energy?

Solar energy is a renewable form of energy, obtained from the transformation of electromagnetic radiation that comes from the Sun. This energy has been harnessed by life naturally since ancient times, and thanks to contemporary technology it is possible to receive and store it in photovoltaic cells or different types of thermal collectors, for Take advantage of it for human purposes.

The sun constantly emits energy to space and much of it impacts the Earth, most of it is rejected by the atmosphere and dispersed into space, but a remaining 30% enters the planet and is absorbed by the oc Us and continents. Approximately 1000 W / m 2 of energy enter our world this way.

Solar radiation can then be converted into caloric or electrical energy, with which to feed homes, industries and all kinds of mechanisms; It is a constant source (since the sun always emits), economical, non-polluting and safe energy.

See also: Nuclear Energy.

  1. Types of solar energy

The tools for harnessing solar energy can be passive or active, depending on their behavior:

  • Active . Those that collect and store energy using photovoltaic devices and thermal concentration technologies.
  • Passive The dispositions that have to do with the bioclimatic architecture, that is, the orientation of the buildings to receive more natural light, to prevent the dispersion of the heat added by the sun, etc.
  1. How is solar energy produced?

Photovoltaic cells are panels installed on roofs, roofs or large land.

Solar energy is a consequence, first of all, of the atomic reactions that are constantly occurring inside the Sun, where there are large amounts of atoms fusing and fissioning in a large natural nuclear reaction. This generates huge amounts of heat and energy that are irradiated to space and planets.

This radiation reaches, as we have said, the surface of our planet, after being filtered by the atmosphere. Then it is received by two types of instruments:

  • Photovoltaic cells. These are solar panels installed on roofs, roofs or large areas of free land, consisting of lots of silicon solar cells capable of converting solar radiation into usable electrical energy.
  • Thermal collectors These systems collect the caloric energy of solar radiation and allow their redistribution for practical purposes, such as heating, heaters and even electrical generation, since such heat can be used to boil water and mobilize turbines.
  1. What is solar energy for?

Solar energy involves many practical possibilities in today's world. The capacity of autonomy that photovoltaic installations provide to farms and settlements separated from the power lines can be key in a better quality of life, since it translates into consumable electricity in different tasks and in heat for heaters of different types.

On the other hand, more and more countries are investing in this type of technology, which takes advantage of a constant natural resource to reduce the dependence of developed countries on fossil fuels, such as oil or coal, in obtaining energy. In fact, solar panels operate regularly on satellites and space modules that humanity has sent to space, which is an example of the potential of this energy in the world to come.

Solar energy has, like everything else, its positive and negative aspects.

  1. Advantages of solar energy

  • Ecology Solar energy does not pollute, nor does it require complicated processes to extract raw materials that harm the environment. In fact, it is compatible with urban life.
  • Savings It is a cheap energy model, since the Sun radiates free to everyone and does not require the purchase of raw materials, only for technological investment and maintenance.
  • Security Solar energy does not have the health risks of atomic or fossil energy, and it is also a completely renewable model (as long as the sun exists, of course it is).
  1. Disadvantages of solar energy

Large territorial extensions are required to obtain high energy yields.
  • Irregular The production of this energy, since it depends on the amount of solar radiation perceived, fluctuated according to the weather, the seasons and other climatic phenomena that may hinder labor and minimize energy flow.
  • Initial cost . While obtaining energy is very economical, the installation costs of a solar plant are still quite high, given the amount of technology required.
  • Location . Large territorial extensions are required to obtain high solar energy yields, and that in many cases is difficult to achieve. Desert areas often receive a lot of sun and have large plains available, but at the same time they are very far from any human settlement.

Interesting Articles

Polymers

Polymers

We explain what polymers are, their classification, properties and characteristics. In addition, natural and synthetic polymers. What is a polymer? The polymers are macromolecules formed by monomers. In chemistry, polymers are a type of macromolecules consisting of chains of simpler units , called monomers, linked together by covalent bonds (Van der Waals forces, hydrogen bonds or hydrophobic interactions)

Structure

Structure

We explain to you what structure is in various disciplines. Structure in architecture, social sciences, geography, astronomy. Structures are fundamental in architecture. What is Structure? A structure is usually defined as the set of important elements of a body, a building or something else . It is usually related to the armor that serves as support for that particular body, building, among others

Computer Generations

Computer Generations

We explain what a generation in computing is, what are the generations so far and the characteristics of each one. The computers of the first generations were much larger than the current ones. Computer Generations In the history of computing, generations are talked about to refer to the various stages in the history of their technological evolution , as they became more complex, more complex

Oil

Oil

We explain to you what oil is, its origin and how this hydrocarbon is formed. In addition, its properties and various uses. The oil is a non-renewable natural resource. What is oil? Oil is called a bituminous substance, with a dark color and viscous texture , composed of a mixture of organic hydrocarbons insoluble in water, also known as black gold

Literary text

Literary text

We explain what a literary text is, its history and the expressive resources it uses. In addition, its classification and characteristics. The literary texts offer the reader subjective, free and reflective content approaches. What is a literary text? When we talk about a literary text, we refer to a form of oral or written production that focuses its attention on aesthetic, poetic and literary forms

Behaviorism

Behaviorism

We explain to you what behaviorism is, Watson and Skinner's behaviorism. In addition, how behaviorism works in education. Behaviorism studies the behavior of living beings. What is behaviorism? It is understood as `` behaviorism '' or ` ` behaviorism '' (of English behavioral or r , conduct ) a a stream of psychology that sets its interest in the behavior of living beings , and that understands it as a set of relationships between stimuli and specific responses