Posts Tagged ‘Thin Layer’

Solar Battery – How It Works

May 4th, 2010

The term “solar cell” can be understood in different ways. This is usually referred to as photovoltaic panels, which can convert sunlight into electricity.
Their work bears many similarities to the organization of the transistor. Typically, the material for that product is semiconductor silicon. If there is a need for high-power device, then there is used the battery of crystalline silicon.
In this case we can speak of two types. The first are the battery of single-crystal silicon. Outwardly, this material can be distinguished by the uniform black and gray color of the surface. The second type is represented by the current generation of elements made from cheaper polycrystalline silicon.
Production is made by casting. Material has a look of blue surface with uneven flow. In addition, silicon is complemented by a small amount of arsenic and boron.
The design of the simplest solar power source is as follows: two stacked thin sheet is connected in such a way that will retain the pn-junction. A used sheet contains impurity atoms of boron, the other – the impurity atoms of arsenic. One plate (outer) is characterized by a surplus of electrons, and internal – to insufficient number.
As a result of sunlight is lighting element and the two layers interact as electrodes ordinary batteries – there is emf. Ray “wakes up” the electrons, which are beginning to move from one plate to another. And the production of sunshine is not associated with chemical reactions. That is why such a solar battery can last for very long.
In fact, a limited lifespan does not exist. However, the device battery may differ in some details. For example, thin-layer cell can contain not only silicon, but gallium, arsenide, cadmium telluride, copper, selenium, and more.
Such a model solar cells have not been studied properly. There are some difficulties in the manufacture of these batteries. At the same time, these advanced batteries have certain additional properties. For example, models that use gallium arsenide, and are able to provide greater efficiency and more resistant to temperature shock.
So how do you choose a really working battery? An important prerequisite is the existence of resistance to the cyclic mode. The battery should be painlessly move deeper level, and have low level of self charge.
The important thing is indifference to such processes as a breach of the conditions of charging or discharging. Of course, a good battery should last a long time. You can also draw attention to other characteristics.
For example, how easy it is to maintain this battery, how much space is required.
In addition, the batteries do not emit large amounts of gas and provide oxygen recombination. As a result, water is the electrolyte is not exposed to power and evaporation. This, in turn, means that the consumer does not have to constantly worry about refilling the electrolyte.
The service life of such batteries is no more than 3-5 years. As a consequence, for the life of the solar battery (15-20 years and over) you will need to change the batteries (to add this to the cost of servicing of battery and equipment).

No doubt electricity has an important place in our lives. In many cases people want to have an independent or additional energy supply source. If you are one of those who search information on hot water solar panels, please visit this site. There you may find lots of details about air source heating and how to order it.

These days the Internet technologies provide us with a truly unique chance to select what one wants at the best terms which are available on the market. That is why if you are properly armed with the information in your sphere of interest you can be sure that you will always find the solution to any bad situation. So, please make sure to visit this blog on a regular basis or – best of all – sign up to its RSS feed. Thus you will have your hand on the pulse of the newest info updates about renewable energy here. Blogs can be helpful, you just need to understand how to use it.

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Mounting Of Crystals At Solar Panels

May 1st, 2010

There was developed a way to mount tiny silicon crystals for solar panels.
The complexity in this case is such that in large systems the force of gravity makes it easy to mount the items as necessary, but on a microscopic scale, when the linear dimensions of each element is thinner than a human hair, it’s not so easy. There begin to interfere outside forces, such as magnetic and electrostatic. For such dimensions, elements, that begins to play a greater role than gravity.
To overcome the difficulties, there was designed a flexible substrate a thin layer of copper coated polypropylene terephthalate (PET). On the substrate through the same distance there is engraved area, the size of which coincides with the size of silicon crystals. Ready-made substrate was lowered into a bath of molten solder, which covered the exposed area of copper foil. Each silicon crystal is of a cube with sides of 20-60 microns, one of which was gilded. On the silicon side suffered a hydrophobic coating (water repellent), whereas at a gilt side – hydrophilic (water attracting).
When the cells were placed in a container containing oil and water, they are neatly placed at the interface between two liquids. Gilded side is facing the water boundary that is down. The substrate is slowly moved across the border between the media as a conveyor belt, and the elements neatly stuck to the gold-coated side solder coatings. Accuracy of the crystals was 98%. Installation was covered with epoxy resin to fix the elements on the ground.
Such device can install more than 20 000 crystals in a minute. Furthermore, elimination of dependence on the strength of gravity allowed to reduce the size of silicon crystals. Previously it could not be less than 100 microns.
A key feature of the experiment was to reduce the time to build to avoid oxidation of the crystals, which could decrease the surface energy and money assembling decline. Used in the device, the water should be acidic pH 2.0, and the temperature was supposed to be equal to 95C, to protect the solder from oxidation.
Thus obtained assembly can be used in numerous applications such as solar panels, video screens and tiny semiconductors.
Use this method for the manufacture of cells of solar panels would significantly reduce the cost by increasing the speed and reduce the amount of required silicon crystals what is extremely important.
Besides that there is known that new solar panel using silver nanoparticles, much easier and cheaper analogues used today in industrial scale. In addition, batteries with silver nanoparticles can be flexible.
Scientists say they have experimented with a variety of polymeric semiconductors to absorb solar energy and produce electricity. During the work, they found that the addition of the panels of silver, greatly increases productivity. Silver particles should be placed directly on a plastic substrate, and it will enhance the development of batteries.

No doubt energy has a significant place in our lives. In many cases people want to have an independent or alternative energy supply source. If you are one of those who are looking for information on hot water solar panels, please check out this site. There you may find lots of details about air source heating and how to purchase it.

These days the web technologies provide us with a truly unique chance to choose exactly what one needs for the best price on the market. That is why if you are properly armed with the info in your topic you can be sure that you will always find the solution to any bad situation. So, please make sure to get back to this site on a regular basis or – an ideal solution for you – sign up to its RSS. Thus you will have your hand on the pulse of the recent informational updates about renewable energy here. Blogging can be helpful, you just need to know how to use it.

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Electricity Production

December 14th, 2009

Alexander Edmond Becquerel opened the photovoltaic effect in far 1839. In 44 years Charles Fritts managed to construct the first module that could use the solar energy. And selenium coated with thin layer of gold served as the basis then. Scientists have found that this combination of elements makes it possible, albeit marginally (about 1%), to convert solar energy into electricity.

Every day brings many pleasant and not very pleasant surprises to the evolution of humanity. We must pay with something for every progress peak` conquest. All of us know from school the truth about the limitless nature of human needs. Their implementation requires an incredible amount of resources, which are not infinite. Daily, it prompts us to seek new ways to recharge our values that are necessary for the existence of a one, and for pleasure of another. And the issue here is not just about luxury goods, but also about the simple means of life maintaining for each of us. Let us speak, for example, about electricity. Unfortunately, today people no longer notice its absolute dependence on electricity, and hence on its sources, which sometimes simply let us down at the worst possible moment. A striking example is an accident at power plant, when the town is without electricity during few hours. Panic fear, light torches and total helplessness – that is what it means to be without the support of energy for an hour or two. It is a pity, but the person does not always have time to think what would happen next.

In the second half of 20th century the planet’s ecologists became seriously concerned about the problems related to conventional means of electricity production. The problem was the destruction of ecosystems by hydropower plants and nuclear plants waste disposal. In addition, a situation was aggravated by the fact that reserves of fossil fuels (such as oil and gas), by leaps and bounds growing prices, in a couple of decades may dry up altogether. a Major study conducted by analysts and researchers may proof this:

Oil will be the first fuel to be over. There is as huge amount of oil, which is being consumed all over the world annually, as it is formed in natural conditions within 2 million years. We will have enough amounts of Uranus during nearest 64 years, and, fortunately, our grandchildren and even great-grandchildren will be able to use coal.

Natural disasters and climate anomalies have finally confirmed the fears of experts. A man has finally understood that has to look for another way. And let the first technology will be expensive, not as effective, yet safe for nature. Among the many proposed options of transition to a “safe energy”, particular importance is attached to solar energy by scientists. Why?

To find the answer to this question, we must try to figure out whether the solar energy has any opportunity for the future or it does not, what the prospects for the industry are, what is actual the transition to the “solar” technology with in our time for individual consumers.

It is a real gift that we live in the times when the government start to understand the value of living in harmony with the nature on this planet. And solar power grants is a real case proof of it. If you want to make a switch to solar energy, please read more about how solar power grants and how exactly you can exploit these solar power grants for your living.

P.S. Quality knowledge quickly enhances the quality of our life.

That is why if you are properly armed with the knowledge in your topic you can be sure that you will in any case find the solution to any bad situation. So, please make sure to visit this blog on a regular basis or – the easiest way to take care of it – sign up to its RSS. Thus you will have a direct shortcut to the freshest informational updates here. Blogs can be helpful, you just need to understand how to use it.

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