Archive for the 'Solar Power' Category
Everyone is talking about the exciting possibilities of solar energy, but few people have actually begun to use the technology in their everyday lives. While it is still rather pricey to purchase your own solar equipment, it is relatively easy to make your own. With a few simple products and by heeding some sound advice, you can learn how to make a solar panel.
You will need a sheet of copper flashing, two alligator clips and a microammeter. This last instrument is used to gauge the microamperes used when heating the panel, and can be purchased at most electronic stores. The only other equipment is a simple plastic bottle and some other basic supplies you can find around the house. In total, creating your own solar panel can easily be done for less than $200.
Here is the download link to a *NEW Mini Guide which will give you a tiny start into the world of solar power. if you are wondering how much trouble and work this all may be, have a look at the video and download a free battery charger for AA or AAA’s that you can take with you on the road. For more information on other projects have a look at our books on energy books online. Be sure to go here for your FREE download:
This can be a fun weekend project of science project for school
Of all the energy sources in use today, solar energy possibly has the most potential for solving the world’s long term energy problems. Solar energy is the cleanest form of renewable energy; producing zero carbon emissions, and provides over 35,000 times the total amount of energy that humans use every day.
Many applications exist for harnessing this energy for home use such as heating and cooling, lighting, and even complete solar home solutions. As the price of crude oil escalates, and the demand for alternative energy sources increase, advancements in technology and government programs are making it easier to learn how to build solar power and more affordable to install solar energy equipment in the home.
What is PV & how does it work? PV stands for photovoltaic. Photo = Light and Voltaic = Electricity.
A solar cell converts light to electricity. A solar cell is made of silicon. Computer chips are made of this same
material.
Basically, when light strikes the surface of a solar cell some of it is absorbed into the silicon. This light energy bumps the
electrons loose and causes energy to flow. By going to Energy Books Online, you can learn in detail how to do this
By packaging approximately 36 solar cells together a solar panel or a solar module is created. When you have more then one solar panels
you create a solar array.
You can build a Solar & Wind Power System for your house and cut your home energy costs by 60% or even 95%. Now I save around $90 each month (68%) on our electric bill. The extra money each month is nice!
And the best part is how easy it is to produce your own energy. There are step-by-step guides that walk you through the process quickly.
o my amazement we had assembled a fully functioning (and money saving) solar system in just half a day (a fun weekend project for the kids too). We picked up all the parts we needed at the local hardware store and the total bill came to only $187.42 (I recouped that cost in just the first 2 months!). For someone who has a hard time changing the sparkplug in my lawnmower, following the instructions in the DIY Solar Power Books was amazingly simple and easy to do, this is definately the system I would suggest.
By Sam Hopkins
Indonesia can’t afford to stop paddling to new shores.
It’s not all smooth going when it comes to the international renewable energy transition, but commitment is a must. Indonesia is one example of an important country in transition where we’re looking at all the positive and negative signals to find different angles.
One of the better choices they may have is to make their own energy products, just like you can do here and this will save them lots of money in the meantime to continue to flourish.
Made up of over 17,000 islands in the Indian Ocean, this archipelago nation owes its modern existence to integration and access.
But local observers are worried that Indonesia’s progress toward its own presidential renewable energy goals is moving too slow.
Only 64% of Indonesian households have access to electricity, and with Asia-Pacific nations all around it ramping up RE development, Indonesia’s economy could end up between islands without an oar.
Indonesia has been Southeast Asia’s leading oil producer, but like many of its petroleum peers, production is in steady decline.
The U.S. Department of Energy’s international supply statistics show Indonesia with only 1 million barrels per day of output in 2008, compared to 1.6 million bpd in 1992.
Indonesia’s oil consumption, though, rocketed from about 700,000 bpd to 1.16 million bpd over the same sixteen years!
That put it in the awkward position of being an OPEC member that actually dipped into net importer status in 2008. Indonesia withdrew its membership that same year, but it likely would have been forced out if it hadn’t.
Indonesia has no time to lick its wounds after having to exit the world’s most exclusive price club. Estimated average GDP growth of about 4.6% over the next five years means there’s no rest for the weary when it comes to finding new energy resources.
Although it seems like a big job, there can be relative ease in building and making your first panel and you will be so proud of your accomplishment. All the videos, instructions, and charts are available from several publishers, and are all listed in the website on renewable energy. The video you see here is just an idea of how your project will turn out to look like.
While somewhat dependent on the area, the average array of solar panels can produce almost five kilowatts of electricity on a daily basis. This is also enough to power a standard size home for a single day. While some people are still thinking that solar panels are a thing of the future, in truth, solar panels have arrived in the mainstream and are now practical for DIY installation. In order to install solar panels, first it’s necessary to acquire them or build them. There are several books that provide instructions on how to build solar panels from standard hardware store supplies.
For home solar power systems, first it’s important to find the right location. For people who own a home, the most practical location is the roof. This area will absorb the most sunlight, and also be out of sight and out of mind, so to speak. Installing solar panels on the roof isn’t all that difficult, most of it just involves some careful footing and a few safety measures. Once installed, just run a few cords to a generator, and soon the whole home will be solar powered!
The use of home solar power systems for supplementing your home’s power has become increasingly popular due to the financial savings they offer. They also help to reduce the depletion of those natural resources we can’t replace. As our society continues to move forward with technology we find we are more and more dependent on electricity every day.
The cost of installing home solar panels is very affordable. In fact, the cost is much less than most people happen to think. Therefore you should seriously look into the matter. You also want to find out if there are tax breaks and incentives offered in your area for installing solar panels California is one of the best states out there offering such initiatives to their residents.
Environmentalists have been singing the praises of solar energy for years, and lately the topic has been trending through mainstream news sources as well. Solar is a renewable resource, which makes it infinitely more sustainable than fossil fuels. By harnessing the energy inherent to sunlight, these panels can heat water in an eco-friendly way.
Solar kits are widely available, and they include detailed instructions for how to build solar power for homes. The common elements among all solar kits are solar cells; these devices convert solar energy into electricity to varying degrees of efficiency. Once your solar panels are assembled and place in a cool, sunny place, they can be attached to a battery for energy storage. The battery can then be used to power many electrical devices over and over again.