Did you know you can make your own solar panel? it,s easy!!

http://ping.fm/zsk5w

SAVE MONEY, SAVE THE ENVIROMENT Buy Green Save Energy Wind,Solar D.I.Y. Plans http://ping.fm/zsk5w
 I had no idea...
I had no idea that thousands of people were making their own solar panels. My friend had collected various drawings and “do-it-yourself ideas" but nothing was very organized and there wasn’t anything I could find online that gave me details on how to do it. There were people talking about it, but it wasn’t until my friend and I developed GreenDIYenergy that there was a step-by-step guide on the topic.

 There is an Easy-to-Follow Guide That Walks you Through Every Step-by-Step Process of Building Solar Energy."

How much money can you save?

For too many years your only option was to buy retail solar panels at $1,125. With installation, that could Total Over $27,000 for your entire house!*

*2007 Installed Costs from ScienceDaily.com ($7.50/watt)

Now, with the help of this detailed “DIY Solar Panel” guide you can join the revolution of Do-It-Yourselfers who have figured out how to cheaply create their own solar power.

This DIY Guide will walk you through the step-by-step process of constructing 60- to 120- watt Solar Panels for under $200. You can easily do it for less than $100 if you do a little extra work in collecting materials.

In fact, You Could Actually Build One For Less Than $27 if you took the time to rebuild and connect “broken solar cells” together (which isn’t that hard to do).

Before you start...

Before you try to build your own solar power, you need to have the right tools. You need to have the step-by-step process that I explain in this guide. I made it a personal mission to create the best solar panel guide available. I searched the Internet for months looking for the best ideas and designs for building solar panels.

I have put all of these ideas into one simple and easy-to-follow solar panel guide. With the fully illustrated process even the Non-Do-It-Yourselfer can quickly learn how to create solar energy at home.

What if I’m not the handy guy? easy to follow instructions for green energy lower your electric bills start today http://ping.fm/zsk5w

mor on solar http://en.wikipedia.org/wiki/Solar_power

what is solar power? learn to building a solar panel today

Image via Wikipedia

buy green energy
go green save energy wind solar http://wwwswiftshop.shopfast.us/alternative-energy-146


6. How do the panels work? A solar
panel (module) is made up a number of solar cells. Solar cells are generally
made from thin wafers of silicon, the second most abundant substance on earth,
the same substance that makes up sand. To make the wafers, the silicon is heated
to extreme temperatures, and chemicals, usually boron and phosphorous, are added. The addition of these chemicals makes the silicon atoms unstable (their electrons less tightly held). When photons of sunlight hit a solar panel, some are absorbed into the solar cells, where their energy knocks loose some of the modified silicon's electrons. These loose electrons are forced by electric fields in the PV panel to flow along wires that have been placed within the cells. This flow of electrons through the wires is electricity, and will provide
power for whatever load we attach (a calculator, a light bulb, a satellite, etc.) Because solar cells are modular, a system's size can be increased (or decreased) over time, according to need.
7. Are there any applications for photovoltaics where I don't need batteries? The simplest and least expensive PV systems are designed for day use only. These systems consist of modules wired directly to a
DC appliance, with no storage device. When the sun shines on the modules, the
electricity generated is used directly by the appliance. Higher insolation
(sunshine) levels result in increased power output and greater load capacity.
And when the sun stops shining, your appliance stops working. These
simple systems are an appropriate, cost-effective option for loads operated only
during the daytime. Examples of day use systems include: Remote water
pumping with a storage tank. Operation of fans, blowers, or circulators to
distribute thermal energy during the day for solar water heating systems or
ventilation systems. Stand-alone, solar-powered appliances such as
calculators and toys. It is also possible, in a utility grid
interconnected system (see below), to do without batteries, as such a system is
essentially using the grid as its storage device. http://wwwswiftshop.shopfast.us/alternative-energy-146

Solar power is the conversion of sunlight into electricity, either directly using photovoltaics (PV), or indirectly using concentrated solar power (CSP). CSP systems use lenses or mirrors and tracking systems to focus a large area of sunlight into a small beam. PV converts light into electric current using the photoelectric effect.



Commercial CSP plants were first developed in the 1980s
http://en.wikipedia.org/wiki/Solar_power

do you need batteries for storage of solar energy?

Image via Wikipedia

do it yourself"go green make a solar panel to run the pool the house http://wwwswiftshop.shopfast.us/alternative-energy-146

7. Are there any applications for photovoltaics where I don't need
batteries? The simplest and least expensive PV systems are
designed for day use only. These systems consist of modules wired directly to a
DC appliance, with no storage device. When the sun shines on the modules, the
electricity generated is used directly by the appliance. Higher insolation
(sunshine) levels result in increased power output and greater load capacity.
And when the sun stops shining, your appliance stops working. These
simple systems are an appropriate, cost-effective option for loads operated only
during the daytime. Examples of day use systems include: Remote water
pumping with a storage tank. Operation of fans, blowers, or circulators to
distribute thermal energy during the day for solar water heating systems or
ventilation systems. Stand-alone, solar-powered appliances such as
calculators and toys. It is also possible, in a utility grid
interconnected system (see below), to do without batteries, as such a system is
essentially using the grid as its storage device.
8. What if I want electricity at night or on cloudy days? Introducing
batteries to a PV system allows electricity to be stored when the sun is
shining. This electricity can then be used to provide power after the sun goes
down.
http://wwwswiftshop.shopfast.us/alternative-energy-146

DO IT YOURSELF SOLAR FREE BONUSES 2 GREAT PROGRAMS TO TRY!!

A photovoltaic array is a linked collection of photovoltaic modules, which are in turn made of multiple interconnected solar cells. By their modularity, they are able to be configured to supply most loads.
The cells convert solar energy into direct current electricity via the photovoltaic effect. The power that one module can produce is seldom enough to meet requirements of a home or a business, so the modules are linked together to form an array. Most PV arrays use an inverter to convert the DC power produced by the modules into alternating current that can plug into the existing infrastructure to power lights, motors, and other loads. The modules in a PV array are usually first connected in series to obtain the desired voltage; the individual strings are then connected in parallel to allow the system to produce more current. Solar arrays are typically measured by the peak electrical power they produce, in watts, milowatts, or even megawatts.
Costs of production have been reduced in recent[when?] years for more widespread use through production and technological advances. One source claims the cost in February 2006 ranged $3–10/watt while a similar size is said to have cost $8–10/watt in February 1996, depending on type.[1] For example, crystal silicon solar cells have largely been replaced by less expensive multicrystalline silicon solar cells, and thin film silicon solar cells have also been developed recently at lower costs of production yet (see Solar cell). Although they are reduced in energy conversion efficiency from single crystalline "siwafers", they are also much easier to produce at comparably lower costs.
http://ping.fm/PbLmg
http://ping.fm/78bUD
http://en.wikipedia.org/wiki/Photovoltaic_array

Solar cells are generally made from thin wafers of silicon, the second most abundant substance on earth,

Image via Wikipedia

buy green energy
go green save energy wind solar http://wwwswiftshop.shopfast.us/alternative-energy-146
6. How do the panels work? A solar
panel (module) is made up a number of solar cells. Solar cells are generally
made from thin wafers of silicon, the second most abundant substance on earth,

the same substance that makes up sand. To make the wafers, the silicon is heated

to extreme temperatures, and chemicals, usually boron and phosphorous, are added. The addition of these chemicals makes the silicon atoms unstable (their electrons less tightly held). When photons of sunlight hit a solar panel, some are absorbed into the solar cells, where their energy knocks loose some of the modified silicon's electrons. These loose electrons are forced by electric fields in the PV panel to flow along wires that have been placed within the cells. This flow of electrons through the wires is electricity, and will provide
power for whatever load we attach (a calculator, a light bulb, a satellite, etc.) Because solar cells are modular, a system's size can be increased (or decreased) over time, according to need.
7. Are there any applications for photovoltaics where I don't need batteries? The simplest and least expensive PV systems are designed for day use only. These systems consist of modules wired directly to a
DC appliance, with no storage device. When the sun shines on the modules, the
electricity generated is used directly by the appliance. Higher insolation
(sunshine) levels result in increased power output and greater load capacity.
And when the sun stops shining, your appliance stops working. These
simple systems are an appropriate, cost-effective option for loads operated only
during the daytime. Examples of day use systems include: Remote water
pumping with a storage tank. Operation of fans, blowers, or circulators to
distribute thermal energy during the day for solar water heating systems or
ventilation systems. Stand-alone, solar-powered appliances such as
calculators and toys. It is also possible, in a utility grid
interconnected system (see below), to do without batteries, as such a system is
essentially using the grid as its storage device. http://wwwswiftshop.shopfast.us/alternative-energy-146


Solar power is the conversion of sunlight into electricity, either directly using photovoltaics (PV), or indirectly using concentrated solar power (CSP). CSP systems use lenses or mirrors and tracking systems to focus a large area of sunlight into a small beam. PV converts light into electric current using the photoelectric effect.

Commercial CSP plants were first developed in the 1980s
http://en.wikipedia.org/wiki/Solar_power

complete do it yourself solar panel kit with free bonus material

do it yourself" a gift of green make a solar panel to run the pool, the house http://wwwswiftshop.shopfast.us/alternative-energy-146

This complete "Do It Yourself" Solar Guide has three parts...
#1 DIY Guide
Solar Panel Systems This is where you will learn how solar energy is produced and about the solar panel system that you will create. This guide includes both the basic solar system layout as well as detailed plans for creating your own solar energy.
•Step-by-Step Process of Creating Solar Energy

•How to Find “Free” Solar Panels

•How to Maintain Your Solar Panel System

Learn how to take the power your solar panels create and run your household energy needs (controller, batteries, inverter, disconnects, etc).

do it yourself" a gift of green make a solar panel to run the pool, the house http://wwwswiftshop.shopfast.us/alternative-energy-146

#2 DIY Guide
The "$98 Solar Panel" Guide
Here is where it gets fun. This is a complete step-by-step explanation of how to build a solar panel from scratch. Everything from building the solar panel box to connecting solar cells is explained here with color pictures and detailed plans.
•Detailed Solar Plans
•Step-by-Step Photos Showing You Exactly What To Do
•In Our Example the Total Costs Were $98, and You Could Do It For Less
#3 DIY Guide (Bundle)

Installing and Mounting Solar Panels Guide
Learn the basics of PV solar panel installation with this helpful guide that shows the process of obtaining city permits to installation of the solar panels, to then hooking up to the electrical panel.

Electrical Wiring Plans for Solar Panels
Learn how to hook up multiple solar panels and how to store your energy using multiple batteries at one time.

DIY Home Energy Audit
You don't need to spend hundreds of dollars on a Professional Energy Audit for your home. With this DIY Starter Kit you can perform a fast and effective audit and find your home's largest energy wasters.

Bonus Material!

For those who are ready to get started today with their DIY energy, the following bonus is for you.
We are about to start selling the following bonus materials as their own product. But until we get all that set up, I’m going to include it with your purchase today. I expect we will be removing this bonus in the next day or two.
DIY Guide
(Bonus!)

do it yourself" a gift of green make a solar panel to run the pool, the house http://wwwswiftshop.shopfast.us/alternative-energy-146

“Video Library”
A $97 Value, but included as a Free Bonus Today
Over 1 Hour of “Step-By-Step Videos” showing you the exact process in building your first solar panel
This is a must have for your Solar Panel Education!
DIY Guide
(Bonus!)
Build Your Own
Wind Turbine
Usually sells for $49.97 but included as a Free Bonus Today
Here is how you can create massive amounts of energy for your home. Use the wind’s energy to power your home! This beginner’s guide gives you a complete understanding of how wind energy is produced and how you can capture it for your own use.
•Explanation of How Wind Energy Is Produced
•Learn the Different Parts That Make a Wind Generator
•How to Buy or Build Your Own Wind Turbine
Learn how to take the power your wind turbine creates and run your household energy needs (controller, batteries, inverter, disconnects, etc).
The $140 Wind Turbine
If you have ever wanted to see the exact step-by-step process involved in building a homemade wind turbine? Here it is!
- Step-by-step plans show you how to build a wind turbine
- Packed full of pictures and diagrams
- In Our example the total costs were $140, and you could do it for less
No fluff here! You will see exactly how to create your own wind turbine that will produce energy for years.

do it yourself" a gift of green make a solar panel to run the pool, the house http://wwwswiftshop.shopfast.us/alternative-energy-146

An inverter is an electrical device that converts direct current (DC) to alternating current (AC);

 BUY NOW!! http://ping.fm/PbLmg

Image by gleneivey via Flickr

Inverter (electrical)
From Wikipedia,
An inverter is an electrical device that converts direct current (DC) to alternating current (AC); the converted AC can be at any required voltage and frequency with the use of appropriate transformers, switching, and control circuits.
Static inverters have no moving parts and are used in a wide range of applications, from small switching power supplies in computers, to large electric utility high-voltage direct current applications that transport bulk power. Inverters are commonly used to supply AC power from DC sources such as solar panels or batteries.
The electrical inverter is a high-power electronic oscillator. It is so named because early mechanical AC to DC converters were made to work in reverse, and thus were "inverted", to convert DC to AC.
The inverter performs the opposite function of a rectifier.DC power source utilization
Inverter designed to provide 115 VAC from the 12 VDC source provided in an automobile. The unit shown provides up to 1.2 amperes of alternating current, or enough to power two sixty watt light bulbs.An inverter converts the DC electricity from sources such as batteries, solar panels, or fuel cells to AC electricity. The electricity can be at any required voltage; in particular it can operate AC equipment designed for mains operation, or rectified to produce DC at any desired voltage.
Grid tie inverters can feed energy back into the distribution network because they produce alternating current with the same wave shape and frequency as supplied by the distribution system. They can also switch off automatically in the event of a blackout.
Micro-inverters convert direct current from individual solar panels into alternating current for the electric grid.
 BUY IT TODAY!!http://ping.fm/PbLmg

http://en.wikipedia.org/wiki/Inverter_%28electrical%29