This blog is all about Solar energy, solar panels, solar cells, solar energy and crises different nations faces in the energy sectors.....!
Monday, February 15, 2010
Solar Cells
Solar cells (as the name implies) are designed to convert (at least a portion of) available light into electrical energy. They do this without the use of either chemical reactions or moving parts.
History
The development of the solar cell stems from the work of the French physicist Antoine-CĂ©sar Becquerel in 1839. Becquerel discovered the photovoltaic effect while experimenting with a solid electrode in an electrolyte solution; he observed that voltage developed when light fell upon the electrode. About 50 years later, Charles Fritts constructed the first true solar cells using junctions formed by coating the semiconductor selenium with an ultrathin, nearly transparent layer of gold. Fritts's devices were very inefficient, transforming less than 1 percent of the absorbed light into electrical energy.
By 1927 another metalĂsemiconductor-junction solar cell, in this case made of copper and the semiconductor copper oxide, had been demonstrated. By the 1930s both the selenium cell and the copper oxide cell were being employed in light-sensitive devices, such as photometers, for use in photography. These early solar cells, however, still had energy-conversion efficiencies of less than 1 percent. This impasse was finally overcome with the development of the silicon solar cell by Russell Ohl in 1941. In 1954, three other American researchers, G.L. Pearson, Daryl Chapin, and Calvin Fuller, demonstrated a silicon solar cell capable of a 6-percent energy-conversion efficiency when used in direct sunlight. By the late 1980s silicon cells, as well as those made of gallium arsenide, with efficiencies of more than 20 percent had been fabricated. In 1989 a concentrator solar cell, a type of device in which sunlight is concentrated onto the cell surface by means of lenses, achieved an efficiency of 37 percent due to the increased intensity of the collected energy. In general, solar cells of widely varying efficiencies and cost are now available.
Structure
Modern solar cells are based on semiconductor physics -- they are basically just P-N junction photodiodes with a very large light-sensitive area. The photovoltaic effect, which causes the cell to convert light directly into electrical energy, occurs in the three energy-conversion layers.
The first of these three layers necessary for energy conversion in a solar cell is the top junction layer (made of N-type semiconductor ). The next layer in the structure is the core of the device; this is the absorber layer (the P-N junction). The last of the energy-conversion layers is the back junction layer (made of P-type semiconductor).
As may be seen in the above diagram, there are two additional layers that must be present in a solar cell. These are the electrical contact layers. There must obviously be two such layers to allow electric current to flow out of and into the cell. The electrical contact layer on the face of the cell where light enters is generally present in some grid pattern and is composed of a good conductor such as a metal. The grid pattern does not cover the entire face of the cell since grid materials, though good electrical conductors, are generally not transparent to light. Hence, the grid pattern must be widely spaced to allow light to enter the solar cell but not to the extent that the electrical contact layer will have difficulty collecting the current produced by the cell. The back electrical contact layer has no such diametrically opposed restrictions. It need simply function as an electrical contact and thus covers the entire back surface of the cell structure. Because the back layer must be a very good electrical conductor, it is always made of metal.
Operation
Solar cells are characterized by a maximum Open Circuit Voltage (Voc) at zero output current and a Short Circuit Current (Isc) at zero output voltage. Since power can be computed via this equation:
P = I * V
Then with one term at zero these conditions (V = Voc / I = 0, V = 0 / I = Isc ) also represent zero power. As you might then expect, a combination of less than maximum current and voltage can be found that maximizes the power produced (called, not surprisingly, the "maximum power point"). Many BEAM designs (and, in particular, solar engines) attempt to stay at (or near) this point. The tricky part is building a design that can find the maximum power point regardless of lighting conditions.
Tuesday, February 2, 2010
Passive Solar House Plans
We offer a wide array of solar house plans and energy efficient home plans. Our solar home plans were created by architects who are well known and respected in the passive solar community. Properly oriented to the sun, homes built from passive solar house plans require much less energy for heating and cooling.
Common Characteristics of Passive Solar Home Plans:
Refers to both design (Passive) or construction (Active) features
Passive Solar orients home to take advantage of site
Takes advantage of clean, healthy and free solar energy
Proper design is warm in winter and cool in summer
Abundant windows on south side typical
Operable windows to control heat gain
How Does Solar Energy for Home Use Work?
One nice thing about the advancement of technology is how things that were expensive within the past, become quite affordable as years go by. A perfect example of this is panels that convert solar energy for home use, or solar panels. These solar panels were quite expensive, but since the value has dramatically decreased, more and more people have considered cashing in or investing on this kind of energy.
Although solar electrical systems have been around for quite some time already, not everybody knows exactly how solar panels work and convert sunlight into electricity. The science behind it is complicated, but the method, however, is amazingly simple. What is commonly known as solar panels are "photovoltaic" panels, which means electricity from light. These panels contain plates that are coated with a substance that reacts with the collected sunshine, and creates a flow of electrons. The electricity is then converted by an inverter within the system to Direct Current (DC), which makes it safe to be used at home. The exceedingly solar electric system creates electricity, or solar energy for home, can be used for just about anything. It can run your lights, power your tools, and operate appliances such as your TV and radio, basically anything that needs electricity.
When the sun goes down and the solar panels can no longer collect sunlight and produce solar energy for home use, there are still other options to choose from for electricity. You can either switch back to using the facility from your electrical company, or have storage units that uses batteries that continuously enables to supply your electrical needs. However, if the system is working properly and is able to manufacture electricity, some of that electricity is diverted to your storage units. This will keep the batteries charged and ready for use. So once the solar panels are not producing electricity, then the storage system kicks in and provides you with solar energy for home use.
The electricity that these solar panels provide is safe and fairly easy to use. Once you've learned the basic knowledge of exactly what it is and the way it works, then you are well on your way to breaking your dependence on fossil fuels for your electrical needs. So why not start to take advantage of the free energy from the sun, and start saving money from your monthly electricity bill? With the way our economy is going now and prices for our necessities are continuously increasing, then the solar energy for home use will surely benefit you. But also remember that this is not the only way you can cut down on your expenses. There are plenty more ways that you can take advantage of what our environment provides us.
Solar energy panels are becoming easier to find. Chances are, you can probably find a provider that is fairly close to where you live. If not, then the web is a valuable resource for finding suppliers and even helps you find the lowest rates.
Although solar electrical systems have been around for quite some time already, not everybody knows exactly how solar panels work and convert sunlight into electricity. The science behind it is complicated, but the method, however, is amazingly simple. What is commonly known as solar panels are "photovoltaic" panels, which means electricity from light. These panels contain plates that are coated with a substance that reacts with the collected sunshine, and creates a flow of electrons. The electricity is then converted by an inverter within the system to Direct Current (DC), which makes it safe to be used at home. The exceedingly solar electric system creates electricity, or solar energy for home, can be used for just about anything. It can run your lights, power your tools, and operate appliances such as your TV and radio, basically anything that needs electricity.
When the sun goes down and the solar panels can no longer collect sunlight and produce solar energy for home use, there are still other options to choose from for electricity. You can either switch back to using the facility from your electrical company, or have storage units that uses batteries that continuously enables to supply your electrical needs. However, if the system is working properly and is able to manufacture electricity, some of that electricity is diverted to your storage units. This will keep the batteries charged and ready for use. So once the solar panels are not producing electricity, then the storage system kicks in and provides you with solar energy for home use.
The electricity that these solar panels provide is safe and fairly easy to use. Once you've learned the basic knowledge of exactly what it is and the way it works, then you are well on your way to breaking your dependence on fossil fuels for your electrical needs. So why not start to take advantage of the free energy from the sun, and start saving money from your monthly electricity bill? With the way our economy is going now and prices for our necessities are continuously increasing, then the solar energy for home use will surely benefit you. But also remember that this is not the only way you can cut down on your expenses. There are plenty more ways that you can take advantage of what our environment provides us.
Solar energy panels are becoming easier to find. Chances are, you can probably find a provider that is fairly close to where you live. If not, then the web is a valuable resource for finding suppliers and even helps you find the lowest rates.
Solar Research NGO
Solar Research NGO Project is completely a welfare project. It is for the welfare of whole nation of our dear coutnry Pakistan. We are trying to design,devlop and research to transfer the fuel & battery system onto Solar Energy System. It is going to be a big challenge to do all these things within Pakistan. But we are confident and believe over ourselves and our expertise and mainly Allah, so in the end, this will be done INSHALLAH. We want to thank the people who are co-operating with us for this purpose and helping us.
Objectives of Solar Research NGO
Promote Solar Energy in Pakistan.
Developing Environment Health.
Transfering Private & Public Transport onto Solar Energy, So that it'll be very cheap and people will get great relief in their lives.
Removing Poverty, Poor people will also afford to go any where in the country without paying much.
Improving business of every citizen of the country, when transportation will be cheap and loadshading will be UNAVAILABLE!
More employment opportunities will be created.
Polution free Pakistan.
Objectives of Solar Research NGO
Promote Solar Energy in Pakistan.
Developing Environment Health.
Transfering Private & Public Transport onto Solar Energy, So that it'll be very cheap and people will get great relief in their lives.
Removing Poverty, Poor people will also afford to go any where in the country without paying much.
Improving business of every citizen of the country, when transportation will be cheap and loadshading will be UNAVAILABLE!
More employment opportunities will be created.
Polution free Pakistan.
Solar Energy In Pakisatan
As solar power does nothttp://www.blogger.com/img/blank.gif make sense for all locations in the world. The initial cost of installing solar panels or other sources of solar energy is high, and that is not easy for most people to get around. No matter how much some people would like to get involved in the movement to independent energy, it is cost prohibitive.To achieve the highest level of efficiency, which is the entire point of going solar in the first place, you need the proper amount of roof space to support the panels your house may require. Not only how much space is available, but also the location of your home is also relevant to whether or not you can maintain solar energy. Some houses simply do not receive enough sunlight to produce substantial energy. This could mean that either your house is not positioned favorably in relation to a tree or other house.
Pakistan is most suitable for solar power:
As you can see, the cons of implementing solar power in your home are primarily cost and location related, but if those two items do not pose issues for you, the good news is…
If solar power is looked at through a long-term lens, you will eventually make back what you originally spent, and possibly start saving money on your investment
Let’s not forget that solar energy increases the value of your home too. Solar power is not subject supply and demand fluctuations in the way that gas is. Silicon, the primary component of solar panels, is also being more widely produced, therefore, less and less expensive with each passing year.
Solar power is independent, or semi-independent. This is great because you can supply your home with electricity during a power outage. Solar power can also be used in remote locations, places where conventional power can’t be reached. On a larger scale, solar power also reduces our need to rely on foreign sources for power.
And last, but certainly not least, it’s good for our planet! Solar energy is clean, renewable and sustainable. It does not fill our atmosphere with carbon dioxide, nitrogen oxide, mercury or any other pollutants. It is a free and unlimited source of power, unlike expensive and damaging fossil fuels.
Monday, February 1, 2010
Solar Panels
Multi-crystalline (Polycrystalline) Solar Panels
A polycrystalline cell contains many crystals. It has similar life span to the monocrystalline cell type, but it has lower efficiency and cost per watt.
Mono-crystalline Solar Panels
A monocrystalline cell is made of a single crystal. Monocrystalline solar panels are high efficiency solar panels.
How much watt solar panel we need?
Example we want to power up 5 lights of 20 Watt and we need to use these 5 lights for 3 hours every day. Here first we get a total watt usage. Ptotal = 20 * 5 = 100W. Than we multiply 100 with 3 hours. Pdaily = 100 * 3 = 300W. We are going to use 300 watt daily. Let us say we are going to have complete sunshine 6 hours each day. Now we divide 300W with 6 hours, so we will get hourly power charge that we need Phourly = 300 / 6 = 50W. So we need a 50 watt solar panel. But it is recommended to always choose a panel some bigger then we need. Because when solar panel charge the battery so it is wasting some power on charging too.
A polycrystalline cell contains many crystals. It has similar life span to the monocrystalline cell type, but it has lower efficiency and cost per watt.
Mono-crystalline Solar Panels
A monocrystalline cell is made of a single crystal. Monocrystalline solar panels are high efficiency solar panels.
How much watt solar panel we need?
Example we want to power up 5 lights of 20 Watt and we need to use these 5 lights for 3 hours every day. Here first we get a total watt usage. Ptotal = 20 * 5 = 100W. Than we multiply 100 with 3 hours. Pdaily = 100 * 3 = 300W. We are going to use 300 watt daily. Let us say we are going to have complete sunshine 6 hours each day. Now we divide 300W with 6 hours, so we will get hourly power charge that we need Phourly = 300 / 6 = 50W. So we need a 50 watt solar panel. But it is recommended to always choose a panel some bigger then we need. Because when solar panel charge the battery so it is wasting some power on charging too.
SOLAR PANEL INVERTERS
LEARN MORE ABOUT WHAT SOLAR PANEL INVERTERS DO
What are solar panel inverters? What are they good for?
Solar Panel inverters are used primarily to change direct current to alternating current via an electrical switching process. You can think of inverters used with solar panels as electronically synthesized alternators.
TYPES OF SOLAR PANEL INVERTERS
There are three types of solar panel inverters:
Stand-Alone Solar Panel Inverters
Synchronous Solar Panel Inverters
Multi-function Solar Panel Inverters
STAND-ALONE SOLAR PANEL INVERTERS
Stand Alone solar panel inverters function to change direct current (DC) from a battery to Alternating Current (AC). Stand alone inverters, which range from around 100 watts to as much as 8000 watts, are used to power a vast variety of personal or small business projects. Lower watt stand-alone inverters are often used to power laptop computers, whereas high-watt stand-alone inverters could be used to help power an entire household. In order to calculate what class of inverter you need for use with your solar panel, you will first have to determine the maximum sum of all of the Alternating Current loads in your project (or home).
How to calculate the wattage you need from your stand-alone solar panel inverter
AC_LoadDryer
+AC_LoadLaptop
+AC_LoadIron
=Total AC Load
This is the wattage you need from your stand alone solar panel inverter.
You can usually find the wattage rating on your home appliances by checking the power cable. The sum of these wattage ratings is what you need to determine the wattage you need from your solar panel stand-alone inverter.
SURGE-COMPLIANT STAND-ALONE INVERTERS
It is important to purchase a quality stand-alone inverter that has a built-in ability to surge if you are using heavy equipment, power tools, or automatic washers, dryers, and dishwashers. These appliances and equipment require a surge on startup, which your stand-alone inverter must be able to supply if you are planning to use these appliances.
SYNCHRONOUS SOLAR PANEL INVERTERS
The term Synchronous Solar Panel Inverters arises from the synchronous dynamic that such a system creates between the utility company and a personal solar-panel installation. Synchronous Solar Panel Inverters allow power generated by your solar panels to be stored in battery. If there is an excess (meaning you did not use as much power as you produced), the power is sold back to the utility company at the same rate at which you are charged!
On the other hand, if your solar panels are unable to provide you with the power you need, your Synchronous Solar Panel Inverter will allow the utility company to supply power to make up the difference. The advantages of a Synchronous Solar Panel Inverter are many, as you can see. This Synchronous Solar Panel Inverter system is quite useful - your batteries will provide you with energy during the utility company's power outages, and on bleak, rainy days, you won't have to worry about your solar panels performance, because any power you need will be supplied by the utility company via your Synchronous Solar Panel Inverter.
A final advantage of Synchronous Solar Panel Inverters is that you will not have to precisely calculate your Alternating Current load in order to set up the system. It is only necessary if you want to have complete reliance on solar panel in most scenarios, but if you are comfortable with buying a steady but small portion of power from the utility company, a rough estimation of wattage from your solar panel system should suffice with the Synchronous Inverter.
MULTIFUNCTION SOLAR PANEL INVERTERS
Multifunction Solar Panel Inverters combine the best of both worlds, and they are usually the best choice for your solar panel system. While more expensive, multifunction inverters may be your best choice. Contact your solar panel dealer for more specific information on Multifunction Solar Panel Inverters.
TRUE AND MODIFIED SINE WAVE INVERTERS
An inverter converts a direct current to an alternating current through a delicate electrical switching process. This process makes an inverter function as a synthesized alternator, which are typically used to produce AC current by creating a smooth alternation, similar to a pendulum gently swinging. This alternation takes the form of a sine wave, which is the ideal wave pattern for transmitting AC power.
MODIFIED SINE WAVE INVERTERS
Modified Sine Wave inverters are better in typical solar applications when electric motors are not involved. They are not quite as efficient as true sine wave inverters, but you'll find that they are much more affordable. Unlike true sine wave inverters, modified sine wave intverters produce a stepped waveform, which isn't really a sine wave at all.
Because the current is not alternating perfectly, the stepped waveform of the modified sine wave inverter causes the inverter to generate an irritating buzz. Take this into careful consideration when purchasing an inverter.
TRUE SINE WAVE INVERTERS
True sine wave inverters are very efficient and have a very accurate waveform to the true sine wave. True sine wave inverters are a little more pricey than modified sine wave inverters because of the reduced noise and their strong compatibility with certain devices, such as electric motors. This is the better option if you value silence, or want optimal performance from electric motors, such as those found in an electric water pump.
What are solar panel inverters? What are they good for?
Solar Panel inverters are used primarily to change direct current to alternating current via an electrical switching process. You can think of inverters used with solar panels as electronically synthesized alternators.
TYPES OF SOLAR PANEL INVERTERS
There are three types of solar panel inverters:
Stand-Alone Solar Panel Inverters
Synchronous Solar Panel Inverters
Multi-function Solar Panel Inverters
STAND-ALONE SOLAR PANEL INVERTERS
Stand Alone solar panel inverters function to change direct current (DC) from a battery to Alternating Current (AC). Stand alone inverters, which range from around 100 watts to as much as 8000 watts, are used to power a vast variety of personal or small business projects. Lower watt stand-alone inverters are often used to power laptop computers, whereas high-watt stand-alone inverters could be used to help power an entire household. In order to calculate what class of inverter you need for use with your solar panel, you will first have to determine the maximum sum of all of the Alternating Current loads in your project (or home).
How to calculate the wattage you need from your stand-alone solar panel inverter
AC_LoadDryer
+AC_LoadLaptop
+AC_LoadIron
=Total AC Load
This is the wattage you need from your stand alone solar panel inverter.
You can usually find the wattage rating on your home appliances by checking the power cable. The sum of these wattage ratings is what you need to determine the wattage you need from your solar panel stand-alone inverter.
SURGE-COMPLIANT STAND-ALONE INVERTERS
It is important to purchase a quality stand-alone inverter that has a built-in ability to surge if you are using heavy equipment, power tools, or automatic washers, dryers, and dishwashers. These appliances and equipment require a surge on startup, which your stand-alone inverter must be able to supply if you are planning to use these appliances.
SYNCHRONOUS SOLAR PANEL INVERTERS
The term Synchronous Solar Panel Inverters arises from the synchronous dynamic that such a system creates between the utility company and a personal solar-panel installation. Synchronous Solar Panel Inverters allow power generated by your solar panels to be stored in battery. If there is an excess (meaning you did not use as much power as you produced), the power is sold back to the utility company at the same rate at which you are charged!
On the other hand, if your solar panels are unable to provide you with the power you need, your Synchronous Solar Panel Inverter will allow the utility company to supply power to make up the difference. The advantages of a Synchronous Solar Panel Inverter are many, as you can see. This Synchronous Solar Panel Inverter system is quite useful - your batteries will provide you with energy during the utility company's power outages, and on bleak, rainy days, you won't have to worry about your solar panels performance, because any power you need will be supplied by the utility company via your Synchronous Solar Panel Inverter.
A final advantage of Synchronous Solar Panel Inverters is that you will not have to precisely calculate your Alternating Current load in order to set up the system. It is only necessary if you want to have complete reliance on solar panel in most scenarios, but if you are comfortable with buying a steady but small portion of power from the utility company, a rough estimation of wattage from your solar panel system should suffice with the Synchronous Inverter.
MULTIFUNCTION SOLAR PANEL INVERTERS
Multifunction Solar Panel Inverters combine the best of both worlds, and they are usually the best choice for your solar panel system. While more expensive, multifunction inverters may be your best choice. Contact your solar panel dealer for more specific information on Multifunction Solar Panel Inverters.
TRUE AND MODIFIED SINE WAVE INVERTERS
An inverter converts a direct current to an alternating current through a delicate electrical switching process. This process makes an inverter function as a synthesized alternator, which are typically used to produce AC current by creating a smooth alternation, similar to a pendulum gently swinging. This alternation takes the form of a sine wave, which is the ideal wave pattern for transmitting AC power.
MODIFIED SINE WAVE INVERTERS
Modified Sine Wave inverters are better in typical solar applications when electric motors are not involved. They are not quite as efficient as true sine wave inverters, but you'll find that they are much more affordable. Unlike true sine wave inverters, modified sine wave intverters produce a stepped waveform, which isn't really a sine wave at all.
Because the current is not alternating perfectly, the stepped waveform of the modified sine wave inverter causes the inverter to generate an irritating buzz. Take this into careful consideration when purchasing an inverter.
TRUE SINE WAVE INVERTERS
True sine wave inverters are very efficient and have a very accurate waveform to the true sine wave. True sine wave inverters are a little more pricey than modified sine wave inverters because of the reduced noise and their strong compatibility with certain devices, such as electric motors. This is the better option if you value silence, or want optimal performance from electric motors, such as those found in an electric water pump.
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