Panels photovoltaic solar energy

Installation of thermal solar energy

Solar power plant
Thermoelectric

Collectors

Thermal Solar Collectors

Thermal Solar Collectors

A solar thermal collector is a component of a solar thermal installation. A solar collector is a type of solar panel responsible for capturing solar energy and transforming it into heat. It is also called the solar thermal collector.

The solar collector is the basic element of this renewable energy source.

From solar collectors there are many types. The solar collector used will depend on the use that is going to be given. For example, if we want to heat a pool to a temperature of 25-28ºC, in the spring, we need a simple sensor, since the ambient temperature will easily be…

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Solar Collector

Solar Collector

Solar collectors are the elements that capture solar radiation and convert it into thermal energy, into heat. It is a type of solar panel designed for use in solar thermal installations. It is also known as a solar collector.

The function of solar thermal energy is to take advantage of solar energy to obtain heat, to heat a fluid. Unlike photovoltaic solar energy whose function is to generate electricity.

Solar collectors are those with flat plates, evacuated tubes and absorber collectors without protection or isolation. The flat (or flat plate) collection…

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Components Of A Solar Thermal Installation

Components Of A Solar Thermal Installation

The function of a solar thermal installation is to take advantage of solar energy to generate heat. The solar panels of these facilities capture the heat of the solar radiation that falls on them to heat a fluid. The different ways to take advantage of this hot fluid allows us to use this type of renewable energy in multiple applications.

A solar thermal installation consists of:

  • Solar collectors
  • Primary and secondary circuits
  • Heat exchanger
  • Accumulator, pumps
  • Glass of expansion
  • Pipelines
  • Main control panel.

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Medium-Temperature Solar Thermal

Medium-Temperature Solar Thermal

Low-temperature solar thermal energy is used in applications that require temperatures between 100ºC and 250ºC. From 80ºC the flat collectors practically no longer have any performance and it is necessary to resort to other capture systems.

Low-temperature thermal energy systems are used mainly for applications that demand thermal energy, that is, heat between 125º C and 400º C. To reach higher temperatures it is necessary to concentrate the solar radiation.

For this type of solar thermal energy, two types of solar collectors are used:

Low-Temperature Solar Thermal Energy

Low-Temperature Solar Thermal Energy

Low-temperature solar thermal installations are considered those installations of solar thermal energy that provide useful heat at temperatures below 65 ° C through solar energy.

A low-temperature solar thermal installation consists of solar collectors, two water circuits (primary and secondary), heat exchanger, accumulator, expansion vessel and pipes.

The circulation of water inside the circuits can be obtained by thermosiphon, taking advantage of the density difference of the water at different temperatures or by means of a circulation pump. Although with a circulation…

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Solar Thermal Energy

Solar Thermal Energy

The solar thermal energy consists of the use of energy from the Sun to transfer it to a medium that carries heat, usually water or air.

Among the different applications of solar thermal energy there is the possibility of generating electric power. The current technology allows to heat water with solar radiation to produce steam and subsequently obtain electrical energy.

Although the principle of operation is very similar there are two main applications of solar thermal energy:

  • Thermal single energy for use in homes and small installations
  • Large thermal solar…

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Evacuated Tube Solar Collector

Evacuated Tube Solar Collector

A solar collector of evacuated tubes is a type of solar panel that uses solar thermal energy. The finality of solar collectors is converting solar radioation into thermal energy.

This renewable solar energy system uses a type of solar panel consisting of linear collectors housed in evacuated glass tubes.

The evacuated tube solar collector consists of a set of cylindrical tubes. The tubes are formed by a selective absorber, located on a reflector settlement and surrounded by a transparent glass cylinder.

The vacuum has been made between the transparent outer tube and…

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Forced Circulation For Solar Water Heater

Forced Circulation For Solar Water Heater

A forced circulation for solar water heater is an installation in which the water circulates inside the circuit driven by a pump. With forced circulation system, the movement of water in the closed circuit is forced by a pump. This feature makes a big difference with respect to sanitary hot water installations with thermosyphon. In this way, it artificially moves the hot water not to the highest point of the closed circuit, but it does so from the solar collectors down to where the accumulator is located.

In many occasions it is not viable to install solar thermal equipment…

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Flat Plate Collector

Flat Plate Collector

The flat plate thermal solar collector has a good cost / effectiveness ratio in moderate climates and adapts correctly to a large number of applications (hot water heating, pool heating, heating support, preheating industrial fluids, etc.).

We can distinguish two basic types of flat plate collectors, depending on the configuration of the absorber: the "grid type" parallel, in the vertical and horizontal versions and the "serpentine type" series. Basically, the difference between the two is:

  • The parallel configuration favors that the temperature of the collector can be stratified…

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High-Temperature Solar Thermal

High-Temperature Solar Thermal

We refer to hight-temperature solar thermal to those collectors who work at temperatures above 500 ° C. They are used for power generation.

The technologies used in hight-temperature solar thermal energy are:

  • Parabolic trough solar collectors
  • Central tower
  • Parabolic dishes or parabolic reflector
  • Linear Fresnel concentrators
Parabolic trough solar collectors

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Thermal Energy

Thermal Energy

Thermal energy is the energy released in the form of heat. It can also be called heat energy. In a more technical way we can define thermal energy as part of the internal energy of a thermodynamic system in equilibrium that is proportional to its absolute temperature and is increased or decreased by energy transfer.

The thermal energy can be transformed using a thermal engine (a thermoelectric power plant uses thermal energy to generate electricity); or in mechanical work (for example, a car, airplane or ship engine).

The obtaining of thermal energy can imply an environmental…

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Hybrid Solar Panel

Hybrid Solar Panel

A hybrid solar panel (more correctly defined as a PVT collector, an acronym P hoto V oltaic and T hermal) is a device that allows the conversion of the energy radiated by the sun partly into electrical energy and partly into thermal energy through the combination of the effect of a photovoltaic module and a thermal solar panel (photovoltaic cogeneration).

Therefore, a hybrid solar panel is composed of a photovoltaic collector to which a heat exchanger is associated, capable of heating a fluid thanks to the part of the solar radiation not converted into electrical energy.

Origin…

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Active Solar Energy

Active Solar Energy

Active solar energy classifies technologies related to the use of solar energy that use mechanical or electrical equipment to improve performance or to process the energy obtained by converting it into electrical or mechanical energy. These equipments can be fans, water pumps, etc.

In contrast, solar systems that do not use these devices are classified as passive solar energy systems.

Examples of active solar energy

The applications of active solar energy can be classified into two types:

  • Thermal solar energy
  • Photovoltaic Solar Energy

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Greenhouse Effect

Greenhouse Effect

The greenhouse effect is the process by which the atmosphere of a planet passes solar radiation from the Sun, but instead prevents or hinders the thermal energy output of the planet.

It is called greenhouse effect due to the similarity with the operation of the greenhouses that are able to retain the heat inside. The operation is not exactly the same, but it is very similar. The difference is that the greenhouse uses the glass and not the gases in the atmosphere to retain heat. That is why this natural phenomenon has been called the greenhouse effect.

When we talk about the greenhouse…

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Solar Panel

Solar Panel

A solar panel is a device to take advantage of solar energy. It can also be called a solar module.

Photovoltaic solar panels contain a set of solar cells that convert light into electricity. It is called solar because the sun is one of the strongest energy sources for this type of use. Solar cells are sometimes called photovoltaic cells, and photovoltaics literally means "light-electricity". Solar cells have the photovoltaic effect to absorb the sun's energy and cause electrical current to flow between two charged layers in the opposite direction.

The denomination of solar panel…

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Solar Accumulator

Solar Accumulator

A solar accumulator is a reservoir that separates the energy supply from the energy capture. That is, because we will not always need energy at the moment of solar radiation, the compiler is entrusted to store this energy to supply it when needed.

For this, the accumulator stores thermal energy from the solar collectors.

When the system needs, for example, domestic hot water the accumulator supplies this hot water and replaces it with cold water that comes from the network. The cold water will pass through the circuit of solar collectors exposed to solar radiation and increase…

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Solar Energy

Solar Energy

The term solar energy refers to the use of the energy that comes from the Sun. It is a type of renewable energy. The energy contained in the Sun is so abundant that it is considered inexhaustible. The Sun takes 5 billion years emitting solar radiation and it is estimated that it has not yet reached 50% of its existence.

Solar energy, in addition to being inexhaustible is abundant: the amount of energy that the Sun pours daily on…

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Domestic Hot Water (Dhw)

Domestic Hot Water (Dhw)

One of the applications of solar thermal energy is the obtaining of sanitary hot water (ACS). Solar collectors capture the energy of solar radiation to increase the temperature of a fluid.

Domestic hot water (DHW) is water intended for human consumption (potable) that has been heated. It is used for sanitary uses (bathrooms, showers, etc.) and for other cleaning uses (washing dishes, washing machine, dishwasher, floor scrubbing). In terms of energy, the ACS is an important component to take into account, since it represents between 25 and 40% of the energy consumption of homes.

As…

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Uses Of Solar Thermal Energy

Uses Of Solar Thermal Energy

Solar thermal energy uses solar radiation to increase the internal energy of an element. Said in one way: to heat an element. Normally a liquid is heated to be able to transport this energy more easily to the place where you want to take advantage of it.

In single-family homes it is very common to see solar collectors. The function of these collectors is to heat sanitary hot water for domestic use or for heating. They are generally support systems but allow considerable financial savings. The installation of these solar collectors is very popular in certain areas due to its low installation…

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Parabolic Cylinder Solar Collector

Parabolic Cylinder Solar Collector

The parabolic cylinder solar collector is another type of solar thermal collector. This type of solar panel used in solar thermal installations uses parabolic cylinders to concentrate all the solar radiation in a point. Instead of heliostats, this type of collector employs parabolic trough mirrors. For the focus of the parabola passes a pipe that receives the concentrated rays of the Sun, where the fluid is heated, usually a thermal oil. Currently the fluid reaches temperatures close to 400º C.

Until recently, the use of thermal solar CCP concentration systems was restricted to…

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