solar cell final

Information about solar cell final

Published on July 29, 2014

Author: prathvipoojari18114514



PowerPoint Presentation: SOLAR CELL TECHNOLOGY BY PRATHVI OVERVIEW..: OVERVIEW .. Introduction History Working Principle Types of Solar Cells Benefits Application Disadvantages Final Thought Reference 2 INTRO TO SOLAR CELL..?: INTRO TO SOLAR CELL..? A SOLAR CELL is a solid state electrical device that converts energy of light directly into electricity by Photoelectric Effect. A SOLAR CELL is also known as Photovoltaic Cell or Photoelectric Cell. 3 HISTORY OF SOLAR CELL..: HISTORY OF SOLAR CELL.. The term “Photo” comes from the Greek meaning “light”, and “voltaic”, from the name of the Italian physicist “Volta”. The PHOTOELECTRIC EFEECT was first recognized in 1839 by French physicist A.E. BECQUEREL. ALBERT EINSTEIN explained the photoelectric effect in 1905 for which he received the Nobel prize in Physics in 1921. 4 PowerPoint Presentation: The modern photovoltaic cell was developed in 1954 at BELL LABORATORIES. The highly efficient solar cell was first developed by DARYL CHAPIN, CALVIN SOUTHER FULLER and GERALD PEARSON in 1954 using a diffused silicon p-n junction. Solar Cells were first used in Vanguard I satellite, launched in 1958. 5 PowerPoint Presentation: 6 HOW IT WORKS..?: HOW IT WORKS..? Photovoltaic cells are made of special materials called semiconductors such as silicon. An atom of sili­con has 14 electrons, arranged in three different shells. The outer shell has 4 electrons. Therefore a silicon atom will always look for ways to fill up its last shell, and to do this, it will share electrons with four nearby atoms. Now we use phosphorus(with 5 electrons in its outer shell). Therefore when it combines with silicon, one electron remains free. 7 PowerPoint Presentation: When energy is added to pure silicon it can cause a few electrons to break free of their bonds and leave their atoms. These are called free carriers , which move randomly around the crystalline lattice looking for holes to fall into and carrying an electrical current. However, there are so few, that they aren't very useful. But our impure silicon with phosphorous atoms takes a lot less energy to knock loose one of our "extra“ electrons because they aren't tied up in a bond with any neighboring atoms. As a result, we have a lot more free carriers than we would have in pure silicon to become N-type silicon. 8 PowerPoint Presentation: The other part of a solar cell is doped with the element boron(with 3 electrons in its outer shell)to become P-type silicon. Now, when this two type of silicon interact, an electric field forms at the junction which prevents more electrons to move to P-side. When photon hits solar cell, its energy breaks apart electron-hole pairs. Each photon with enough energy will normally free exactly one electron, resulting in a free hole as well. If this happens close enough to the electric field, this causes disruption of electrical neutrality, and if we provide an external current path, electrons will flow through the P side to unite with holes that the electric field sent there, doing work for us along the way. The electron flow provides the current , and the cell's electric field causes a voltage . 9 PowerPoint Presentation: Now to protect the solar cell, we use antireflective coating to reduce the losses and then a glass plate to protect the cell from elements. 10 PowerPoint Presentation: 11 PowerPoint Presentation: 12 PowerPoint Presentation: 13 TYPES OF SOLAR CELL..: TYPES OF SOLAR CELL.. There are basically 3 types of solar cell technology: Discrete Cell technology. Integrated Thin Film technology. Multi crystalline Silicon technology. 14 BENEFITS..: BENEFITS .. The very first benefit of using this technology is that solar energy is renewable. This is a 100% environment-friendly. Contrary to fossil fuels, this technology is not going to release any greenhouse gases, harmful agents, volatile material or carbon dioxide into the environment. Solar panels are highly durable and reliable. These systems don’t have any moving systems and hence they don’t require any replacement. 15 PowerPoint Presentation: We can use Solar cell technology to generate thousands of hours of electricity with minimal maintenance. Almost every energy source creates some sort of noise, but that is not the case with solar panels and cells. Solar cells provide cost effective solutions to energy problems in places where there is no mains electricity. 16 APPLICATION..: APPLICATION .. Rural electrification: The provision of electricity to rural areas derives important social and economic benefits to remote communities throughout the world like power supply to remote houses, electrification of the health care facilities, irrigation and water supply and treatment. Ocean navigation aids: Many lighthouses are now powered by solar cells. Telecommunication systems: radio transceivers on mountain tops are often solar powered. 17 PowerPoint Presentation: Solar cells are often electrically connected and encapsulated as a module . These modules often have a sheet of glass on the front (sun up) side, allowing light to pass while protecting the semiconductor wafers from climate conditions. Solar cells are also usually connected in series in modules, creating an additive voltage. 18 PowerPoint Presentation: Photovoltaic solar generators have been and will remain the best choice for providing electrical power to satellites in an orbit around the Earth. 19 DISADVANTAGES..: DISADVANTAGES .. The main disadvantage of solar cell is the initial cost. Most types of solar cell require large areas of land to achieve average efficiency. Air pollution and weather can also have a large effect on the efficiency of the cells. The silicon used is also very expensive and the solar cells can only ever generate electricity during the daytime. 20 PowerPoint Presentation: Another con to Solar cell technology is that the efficiency level of this technology is low. The most efficient solar power system gives you an efficiency of not more than 40%. This means that the rest of the 60% power of sunlight is not harnessed. The most important thing that is necessary is the sky should be clear so that sunlight can fall on the solar cell and we can get electricity. 21 FINAL THOUGHT..: FINAL THOUGHT.. Argument that sun provides power only during the day is countered by the fact that 70% of energy demand is during daytime hours. At night, traditional methods can be used to generate the electricity. Goal is to decrease our dependence on fossil fuels. Solar cell light absorbing materials can be stacked to take advantage of different light absorption and charge separation mechanisms. 22 REFERENCE: REFERENCE 23 PowerPoint Presentation: 24

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