How do Solar Panels Work?
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Whether on a solar-powered calculator or an international space station, solar panels generate electricity using the same principles of electronics as chemical batteries or standard electrical outlets. With solar panels, it's all about the free flow of electrons through a circuit.
To understand how solar panels generate electrical power, it might help to take a quick trip back to high school chemistry class. The basic element of solar panels is the same element that helped create the computer revolution -- pure silicon. When silicon is stripped of all impurities, it makes a ideal neutral platform for the transmission of electrons. Silicon also has some atomic-level properties which make it even more attractive for the creation of solar panels.
Silicon atoms have room for eight electrons in their outer bands, but only carry four in their natural state. This means there is room for four more electrons. If one silicon atom contacts another silicon atom, each receives the other atom's four electrons. This creates a strong bond, but there is no positive or negative charge because the eight electrons satisfy the atoms' needs. Silicon atoms can combine for years to result in a large piece of pure silicon. This material is used to form the plates of solar panels.
Here's where science enters the picture. Two plates of pure silicon would not generate electricity in solar panels, because they have is no positive or negative charge. Solar panels are created by combining silicon with other elements that do have positive or negative charges.
Phosphorus, for example, has five electrons to offer to other atoms. If silicon and phosphorus are combined chemically, the result is a stable eight electrons with an additional free electron along for the ride. It can\'t leave, because it is bonded to the other phosphorus atoms, but it isn\'t needed by the silicon. Therefore, this new silicon/phosphorus plate is considered to be negatively charged.
In order for electricity to flow, a positive charge must also be created. This is achieved in solar panels by combining silicon with an element such as boron, which only has three electrons to offer. A silicon/boron plate still has one spot left for another electron. This means the plate has a positive charge. The two plates are sandwiched together in solar panels, with conductive wires running between them.
With the two plates in place, it's now time to bring in the 'solar' aspect of solar panels. Natural sunlight sends out many different particles of energy, but the one we're most interested in is called a photon. A photon essentially acts like a moving hammer. When the negative plates of solar cells are pointed at a proper angle to the sun, photons bombard the silicon/phosphorus atoms.
Eventually, the 9th electron, which wants to be free anyway, is knocked off the outer ring. This electron doesn't remain free for long, since the positive silicon/boron plate draws it into the open spot on its own outer band. As the sun's photons break off more electrons, electricity is generated. The electricity generated by one solar cell is not very impressive, but when all of the conductive wires draw the free electrons away from the plates, there is enough electricity to power low amperage motors or other electronics. Whatever electrons are not used or lost to the air are returned to the negative plate and the entire process begins again.
One of the main problems with using solar panels is the small amount of electricity they generate compared to their size. A calculator might only require a single solar cell, but a solar-powered car would require several thousand. If the angle of the solar panels is changed even slightly, the efficiency can drop 50 percent.
Some power from solar panels can be stored in chemical batteries, but there usually isn't much excess power in the first place. The same sunlight that provides photons also provides more destructive ultraviolet and infrared waves, which eventually cause the panels to degrade physically. The panels must also be exposed to destructive weather elements, which can also seriously affect efficiency.
Many sources also refer to solar panels as photovoltaic cells, which references the importance of light (photos) in the generation of electrical voltage. The challenge for future scientists will be to create more efficient solar panels are small enough for practical applications and powerful enough to create excess energy for times when sunlight is not available.
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42
electrons passing through something *is* electricity, - anon52661
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i just read the article, but i am still confused about how the wires can take the electrons passing through and convert it into electricity. - anon49270
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I am doing a science fair project called "At what direction does a solar panel receive the most sunlight in _________?" I think I should
place a solar panel facing east, west, north,and south. Then I am lost. I am sure I know how a solar panel works, but I do not know how I would do the experiment. It would be great if you could help me. Thanks. - nazen
36
I purchased a solar power system to run 3 lamps and a fan. The battery is now dead and I dont want to buy one more. What can I do with this solar panel. How do i know the power capacity the panel is generating? what can i do with the power? Can I attach the power to a stand alone plug point which can be used say to run a table fan? My system is Tata BP Solar, India. It is a 12V system. - anon41684
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Batteries are the real cost element. They represent the true running cost to generate Solar Based Power unless the Solar Power is Grid linked. - chatlit
31
There seems to be a wrong impression that once the panels are installed the electricity is free! The real cost of electricity from Photovoltaic panels is in the cost of batteries. Batteries deliver a certain amount of energy (units of electricity)over it's life. The life is limited and depends upon the no. of charge discharge/charge cycle it undergoes and how much the battery is discharged *before* it is set up for the next recharge.For example a 12V7AmpHour battery will deliver *at most* 8.4 Units of Electricity per 100 Charge/Recharge cycles. The best quality battery under best op. conditions will last~ 800 ChargeDischarge Cycles thus delivering only about 70 units over it's life. In India this battery costs around Rs.1200/-The per unit cost of generation is Rs 16/- as against Rs.4/-. This point needs to be highlighted. Unless the batteries are made efficient only grid linked Systems without intervening batteries seem to be the only answer. Smaller Stand Alone systems are plain uneconomical. - anon30276
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Well, right. It's the human greed that keeps the prices high! - anon29716
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why does the output of a solar panel drop when exposed to heat in an enclosed area? - frostie2007
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I wonder could silicon or this technology be bonded with something to make it strong enough to withstand nuclear waste radiation; could you use this technology to harness the power of nuclear waste? - theboom1
23
for those of you who believe that it is not cost effective you are right. If you are willing to put 23,000 up front, have 2500 SQ feet of roof space sun 6 hours a day every day. It will take 40 something years it to pay itself off. Considering that the panels are 80% of the cost and the average panel will only last for 25 years at the most this is not a good deal. I am not saying that you should not get it though. It just won't save money. - anon22046
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is this the same process that a solar calculator uses? - anon20398
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okay, so let me see if i have all the components right I have to get Silicon which can be easily found in beef jerky in the anti moisture or what you will packets but is easier and more purer in other special stores. Next Phosphorus which can be found in ocean deposits and I am conveniently located in Nevada which was once an ocean so i can get dirt maybe by a natural open maybe lake or something. Then get Boron which can also be found in stores and then this is the part im not sure about do i melt these together into 2 slabs and wrap copper wiring around the middle of the two of them before putting them on and wrap the remaining copper wiring onto a battery or any other kind of electrical kind of ... source well not a source but something like that i dont know im confused can someone please explain or summarize this paragraph into steps I have resources that i can get the materials i just need to review the steps thank you. - timfox13
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How does solar power get converted to electricity??? From: a student from rockwall tx - anon18226
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Where can i get the schematic wiring for solar installation? - anon17044
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lightening can damage panels for sure. They should be properly grounded to earth. - steve82
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Does lightning do any damage to the solar panel?
- anon9469
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Hot water solar systems work without photo voltaic panels. they simply heat up the water using the greenhouse effect. This hot water (or oil) can be passed through a heat exchanger to drive turbines to generate electricity without the need for any chemistry. - anon7857
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this article gave sooo much info. that i'm surprised my head didn't explode.
anyway, how does a solar panel survive 25 years without burning up because of the sun?????? I wouldn't survive 2 days in that heat!
posted by, the a man
- anon7473
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lifespan is somewhere in the range of 25 years - anon7221
5
ahh, this article was super helpful.
how long, roughly, is the life of a solar panel, given damage from UV rays and the elements? - kdev669
4
Help with a design for dcr 225 refrigerator sun-danzer:
12v dc battery powered in a stand alone environment.
Environment: 6hr-sun/day . 90Degrees farenh. 24Hrs 7days.
Could you help with the most suitable cost effective components pv panels, cables, charger or controller charger, mount kits and the type of battery required for this project.
Thank you for your effort.
Regards ade. - anon6408
3
Solar panels are absolutely able to generate electricity for residential needs. It is the price tag for the initial investment that is daunting. A solar panel system that feeds electricity back into the power grid (what you currently receive your electricity from) and produces enough electricity for an entire house will generally cost about $20,000 up front. But, after you subtract rebates and tax credits from various incentive programs, you can get a lot of that money back.
Furthermore, if it provides you with thousands of dollars worth of electricity per year, it's worth the investment over the long term and can actually be a money-maker. A smaller solar panel that is just going to heat your water does not even have to be hooked up to the power grid--it can just be hooked up directly to your hot water tank--and that should be measurably cheaper. - anon3515
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I wouldnt think it would be able to, though im sure it would make a dent in the bills. ;-) - anon2558
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from reading this I get the impression that this technology is not yet refined enough for me to install a solar system to provide my h water -am I correct? - anon2057
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Written by
Michael Pollick
Last Modified: 16 November 2009
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