WHICH IS PHOTOVOLTAIC SOLAR ENERGY

WHICH IS PHOTOVOLTAIC SOLAR ENERGY

8 abril, 2019 Off By admin

 In this article we will try to explain as simple and didactically as it is photovoltaic solar energy.

Photovoltaic solar energy is the way to generate clean electricity by means of photovoltaic solar panels, this allows saving money and protecting the environment.

WHICH IS PHOTOVOLTAIC SOLAR ENERGY

What is solar photovoltaic energy?

Photovoltaic solar energy is a source of clean and renewable energy that uses solar radiation to produce electricity.

It is based on the so-called  photoelectric effect,  by which certain materials are capable of absorbing photons (light particles) and releasing electrons, generating an electric current.

For this, a semiconductor device called a  cell or photovoltaic cell is used,  which can be monocrystalline, polycrystalline or amorphous silicon, or other thin-film semiconductor materials.

The cell of monocrystalline silicon  is obtained from a single crystal pure silicon and reach maximum efficiency, between 18% and 20% on average. Those of  polycrystalline silicon  are made in block from several crystals, so they are cheaper and have an average efficiency of between 16% and 17.5%.

Finally, the  amorphous silicon  have a disordered crystalline network, which leads to worse performance (average efficiency of between 8% and 9%) but also a lower price.

 

Photovoltaic energy is the  direct transformation of solar radiation into electricity . This transformation occurs in devices called  photovoltaic panels .

In photovoltaic panels, solar radiation excites the electrons of a semiconductor device generating a small potential difference. The series connection of these devices allows to obtain greater potential differences.

Although the photovoltaic effect was known since the nineteenth century, it was in the  50s, in full space race , when the photovoltaic panels began to experience an important development. Initially used to supply electricity to geostationary communications satellites, they are now a  renewable generation technology .

WHICH IS PHOTOVOLTAIC SOLAR ENERGY

One of the main virtues of photovoltaic technology is its  modular aspect , being able to build from huge photovoltaic plants in soil to small panels for roofs.

How is photovoltaic solar energy generated?

As we say,  photovoltaic solar energy  is one that transforms the sun’s energy into electrical energy. But how does this transformation take place? How is photovoltaic solar energy really generated?

The  photovoltaic solar energy  is based on the principle that the  energy  contained in the particles of light (the photon ) can be converted into  electricity . This is achieved through the so-called  photovoltaic conversion process .

The direct conversion of solar energy into electricity is done through a semiconductor material (silicon, for example). It does not require moving parts, fuel or noise.

The basic element is the photovoltaic cell: exposed to light, it absorbs the energy of photons of light. These set in motion electrons that are trapped by an internal electric field. The electrons collected on the surface of the cell generate a continuous electric current

The output voltage of a photovoltaic cell is low (0.6 V). This is why the cells are placed in electrical arrays, then they are encapsulated between a glass plate in the front and another moisture-proof material in the back.

Therefore, they form a photovoltaic module  (product that is commercially available). According to the technologies and the type of use that is made of it, this module has a surface area of ​​0.1 m² (10 W) to 1 m² (100 W), average indicative values, and declines voltages of 12 V, 24 V or 48 V  depending on the application.

In broad strokes we can summarize that what happens is that, by using a device specially designed for this purpose, electricity  is obtained  thanks to  the photoelectric effect  of sunlight . Generally these devices consist of a semiconductor metal sheet that is called a  photovoltaic cell .

Another variant is a deposition of certain metals on a substrate or thin layer. Recently, it has also experienced great advances in the development of organic devices.

WHICH IS PHOTOVOLTAIC SOLAR ENERGY
As a result of this  process photovoltaic conversion is obtained  energy  at low voltages (between 380 and 800 V) and DC. Later an inverter is used   to transform it into  alternating current .

The  devices where these photovoltaic cells are located are called solar panels  and, for personal or family use, they usually have a price of around 7,000 euros.

In addition, these facilities have the advantage that they do not need much maintenance. Of course, they must be installed in the right place (where there are many hours of sunshine) and with the proper placement and orientation.

The  electricity produced is available in the form of direct electricity or stored in batteries (decentralized electric power) or electricity injected into the network.

The performance of a photovoltaic installation depends on the orientation of the solar panels and the sun areas in which it is located.

But yes, the degree of use of photovoltaic solar energy is much less than that provided by resources such as oil or natural gas, and is more or less at the same level of use as wind energy (depending on the geographical area, Of course).

However, its uses are increasing and today it is already used in very different areas, as we can see in the following section.

Types of photovoltaic plants

There are two types of photovoltaic plants: those that are connected to the network and those that are not. Within the first there are, in turn, two other classes:

  • Photovoltaic power station:  all the energy produced by the panels is poured into the electricity grid.
  • Generator with self-consumption:  part of the electricity generated is consumed by the producer (in a house, for example) and the rest is poured into the network. At the same time, the producer takes the necessary energy from the grid to cover his demand when the unit does not supply enough.

These installations with connection to the network have three basic elements:

  • Photovoltaic panels:  these are groups of photovoltaic cells mounted between layers of silicon that capture solar radiation and transform light (photons) into electrical energy (electrons).
  • Investors:  convert the continuous electrical current produced by the panels into alternating current, suitable for consumption.
  • Transformers:  the alternating current generated by the inverters is low voltage (380-800 V), so a transformer is used to raise it at medium voltage (up to 36 kV).

On the other hand,  facilities not connected to the network  operate  on an island  and are usually found in remote places and farms to meet lighting demands, support telecommunications and pump irrigation systems. These isolated plants require two additional elements to function:

  • Batteries:  responsible for storing the energy produced by the panels and not demanded at that moment when necessary.
  • Regulators:  protect the battery against overloads and prevent inefficient use of it.

Uses of photovoltaic solr energy

Photovoltaic solar energy can be used for different applications:

WHICH IS PHOTOVOLTAIC SOLAR ENERGY

 

Applications in photovoltaic systems connected to the network

Photovoltaic systems connected to the grid are one of the newest and most innovative applications of photovoltaic systems.

This application includes the installation of a photovoltaic sensor and an inverter capable of transforming the energy supplied by the photovoltaic panels and being injected into the network.

The investor in this type of installation is the core. The UPS must have some protection for situations that may occur in the electrical network (for example, phase shift network, network failure, voltage out of range).

The  cost per kWh produced is generally higher than the energy produced  by other power generation systems. Therefore, to guarantee the economic viability of these systems, the country in which it is applied must have legal regulations and financial aid lines to offset the higher cost per kWh produced.

On the other hand, in isolated systems,  that is, systems that are not connected to the diversity of PV array applications, the applications seem endless.  However, we highlight some examples:

Photovoltaic systems for lighting 

Lighting using photovoltaic systems is one of the most economical solutions  for illuminating entrances to towns, intersections, rest areas, etc.

This type of photovoltaic applications can also be found in  billboards, bus stops, street  lighting and tunnel lighting, among other examples.

Implementation of signage with photovoltaic energy

The  solar fotovoltaicapermite automation of lighthouses.

For the use of air, they are used for  electrical beacon signals and traffic signals on the tracks.

Lighthouses and buoys for marine purposes.

Another great application of  roundabouts, curves, signs, barriers, etc. using high brightness LED. The low power consumption of the light emitting diodes allows a small photovoltaic installation in these systems.

In this sense, we also find examples of time and temperature indicators on public roads, at railway crossings or on oil platforms.

Another great application that has recently been incorporated is very important in road safety, roundabouts, curves, traffic signs, doors, etc. using high brightness LED, low power consumption that allows a small photovoltaic installation.

Photovoltaic systems related to telecommunications

In the field of photovoltaic solar energy, telecommunications are used  in the field of mobile telephony, radio and television repeaters. On the way, the SOS poles work with renewable energies, as the work saves network cables in operation.

The  radar, radio stations in general and military surveillance  or rural satellite telephony are other examples in which solar energy is used to operate.

 

Rural photovoltaic electrification

 

Rural electrification with solar panels has all the conveniences you can have in conventional electrification. This parity is due to the incorporation of new sinusoidal wave inverters. This system allows the use of any device.

Thus, it becomes one of the most important applications is the electrification of small towns with a centralized system.

To manage the power supply, the equipment is installed in each power limiter of the house’s electronic equipment, which must be delivered by a user on a daily basis, however, the equipment must be intelligent enough to increase the assigned power if the Battery status is not good, or else if it is bad.

The second major disadvantage is the inverter power and efficiency compared to small loads, but this is solved by installing several inverters in parallel.

This is all about photovoltaic solar energy, an energy that, surely, will be very important in the not too distant future, when the human being has finished with all the fossil resources of the planet, something that will happen sooner or later as it It deals with non-renewable resources (not at least at the rate at which they are consumed).

Application of photovoltaic solar energy in farms and livestock

In agricultural applications, photovoltaic solar energy is used to power pumps to provide water for livestock irrigation.

Light energy is also used in farms. Often, the farms are far from the power distribution lines. Photovoltaic panels allow these cases to be electrical (lighting engines, scissors, etc.).

On some farms, photovoltaic energy is used for milking and milk cooling systems. Even these systems are practical for the electrification of fences.

Directly operated water pumps are one of the most important applications in agriculture. This application highlights its ease of installation, without maintenance and full automation.

These systems consist of a field of photovoltaic panels, an electronic device and the entire system of sensors and pumping control.

Another important application in agriculture has been the control of electrification and solenoid valves for irrigation. This electrification has allowed a better distribution and saving of water, mainly on the basis of drip irrigation or low pressure systems.