Welcome to Power Generators

Coates International to raise $300 million for new manufacturing plants

Coates International announced today it entered a joint venture for a bond offering to raise $300 million, which will be used to establish new manufacturing facilities in New Jersey, according to a report in NJBIZ.

The company said the funding will be used to build new plants near the company's headquarters in Wall Township, as well as in Miami, Okla., the report said.

These facilities will manufacture industrial electric power natural gas generators, and tractor-trailer diesel engines.

Milton Maltz: Turning power lines into battle lines

Terrorist groups and rogue states are moving their battle to the Internet. Our four-part series explains how to fight it.

A new and increasingly ominous threat to global security is growing in the shadowy realm of cyberspace. The danger does not stem from the usual suspects — hackers and criminals who prowl the Internet to steal credit card numbers and personal identities. As we mark Cyber Security Awareness Month, there is growing evidence that cyber spies and cyber terrorists — some working on their own, others sponsored by nation states — have their eyes on a much bigger prize: North America’s system of electrical generation and transmission.

This is not digital crime. This is cyber war: a deliberate attempt to turn our power lines into battle lines. Multiple covert intrusions into computer systems that control the electrical grid have already been documented by U.S. national security officials, most recently in April 2009.

“We know they have done reconnaissance of our power grid,” says James A. Lewis, senior fellow and director of the Technology and Public Policy Program at the Center for Strategic & International Studies in Washington, D.C. “They are looking for weak spots — places where they can launch malicious code.”

Read more »

Clenergen to launch new biomass power plants in India

Clenergen’s Chennai, India-based subsidiary said today it closed terms to acquire a 1.5 megawatt biomass power plant in Namakkal, Tamil Nadu.

The plant, recognized as one of India’s national demonstration projects, is expected to be operational before the end of the year. The plant was stopped in 2007 because of operational cash flow constraints and its failure to remain profitable at a low tariff rate.

But with a power purchase agreement between PTC India and the subsidiary, Clenergen India, a higher tariff rate has now been reached. PTC India is a government initiated public-private partnership that provides power trading arrangements.

Florida-based parent company Clenergen (OTCBB:CRGE) develops clean energy generation projects. It also installs and operates distributed power systems and applies its plant science to cultivate biomass feedstocks.

The carbon neutral Namakkal plant is expected to generate net revenue of about $1 million during its first year of operation, ramping up to 10 MW during its first phase. Its anaerobic digestive technology has been proven to process agri-biomass into renewable energy, Clenergen said.

Clenergen is also planning to install two new biomass power projects—a 16 MW plant in Tuticorin, Tamil Nadu, and a 64 MW plant in Karnataka. The Tuticorin plant is expected to be operating by the end of 2010.

The total projected cost of the new plants is $236 million. Clenergen is looking to raise $83 million in equity financing on the Indian stock markets to help fund them.

The Tamil Nadu and Karnataka plants are expected to use feedstocks from a grass species called beema bamboo and a tree species marjestica.

Clenergen uses what it claims is an efficient power generation system using gasification technology/gas turbines generators and power generation through pyrolisis/steam turbine generators.

Generators Types and Features

We recommend diesel due to their longevity and lower operating costs;

1. 1800 rpm water cooled diesel operate on average 20-30,000 hours before major engine maintenance is required.

2. 1800 rpm water cooled gas normally operate 6-10,000 hours because they are built on a lighter duty gasoline engine block.

3. 3600 rpm air-cooled gas engines are normally replaced – not overhauled at 500 to 1500 hours.

Because gas engines burn hotter (higher btu of the fuel), you will see significantly shorter lives. Our gensets are from the world’s top manufacturers. We offer products for high-end residential customers with larger homes to industrial and military customers seeking prime power or critical emergency backup generators.

Electric equipment is designed to use power with a fixed frequency: 60 Hertz (Hz) in the United States and Canada, 50 Hertz in Europe and Australia. The frequency output depends upon a fixed engine speed. To produce 60 Hz electricity, most diesel engines operate at 1800 or 3600 RPM. Each speed has its advantages and drawbacks. At 1800 RPM, four pole electric power sets are the most common and least expensive. They offer the best balance of noise, efficiency, cost, and engine life. At 3600 RPM, two pole generators are smaller and lightweight; they are best suited for portable, light-duty applications. In simple terms it’s like operating your car at 90 mph, versus 45mph — at 45mph your car will last longer; it is quieter, requires less maintenance, and has a longer life. Most 3600 rpm gensets are twin cylinder air-cooled lawn mower engines, while the water cooled 1800 rpm units are comparable to those found in diesel forklift and diesel tractor engines. The 1800 rpm water cooled engine will last longe r, offerless maintenance problems, and be more fuel efficient. We recommend diesel! Gensetcentral Systems can provide for all your backup power needs from 2 Mega Watt generator for industrial, residential and military applications. We can provide you with high quality gensets. We offer only top quality products that are priced at or below our competition who offer lesser brands Our diesel products are powered by world class diesel engines - we feature SDMO, Lister Petter, Katolight, Baldor, Kubota, John Deere and Cummins power plants


Diesel Generators and Electric Generators

Human Power Generator

Windstream's Human Power Generator is ideal for educational displays and small power production applications ( under 65 watts). The Human Power Generator is user friendly, portable and available whenever you have the need for it. The Human Power Generator can be a valuable tool in teaching an appreciation of the physical energy required to produce the electricity we tend to take for granted.

The Human Power Generator is primarily designed to charge a 12Volt, deep cycle battery or to contribute to a 12Volt system. It can also provide DC direct power.

AC appliances can be used with the Human Power Generator by using a DC-AC inverter connected to a battery for stability (see our Portable Power Pack). It is also possible to directly power certain DC powered equipment such as a low power water pump without using a battery. Appliances such as a DC television, light or radio may also be used. However, with this application, a voltage regulator may be required and keep in mind that the electrical current delivered, follows the same rhythym of your pedaling - which is not constant.

The amount of electrical power that can be generated by the Human Power Generator is determined by the energy available to turn the crank . The stronger the user, the more electrical power can be produced. Typical output in watts with the Human Power Generator is about 60 Watts or 35 Watts with handcranks.

The Human Power Generator consists of a heavy, powdercoated steel frame holding a bicycle-like crank, with a step-up chain drive (6.5:1) attached to a permanent magnet DC generator (stock # 443541). Each Human Power Generator comes with standard foot pedals. We also manufacture optional cushioned hand cranks can be attached to the two crank arms for an additional $35.00.


* Emergency power generation and battery charging - land and marine.
* Measurement of human power and endurance.
* Remote or off-grid power for water pumps and small appliances.
* Independent radio or radiotelephone systems; emergency communications.
* Classroom projects and educational exhibits to demonstrate the amount of effort required to generate electrical power.

If the Human Power Generator is purchased on its own without a Power Pack, it automatically comes with a heavy duty diode protected connecting cable. You can choose the kind of wire termination that suits your application. The most universal cable uses plier- style clips to attach directly to the battery posts.

The diode is built into a small in-line aluminium box and prevents reverse current from traveling back from the battery to the generator. The diode is rated at 35A and is also a Full Wave Bridge that allows the user to pedal safely in either direction regardless of the polarity of the generator.

Human Power Generator: $550.00Order Now


Choosing a Marine Generator

For owners of boats, yachts, and other water crafts, a marine generator can come in very handy and offer a better experience. When selecting a marine generator for a water craft, there are many variables to consider. The very first consideration is deciding how much power needs to be provided by the generator. A generator should be able to run all necessary appliances with at least a minimal usage of at least 40% to a max of around 80%. To size the correct power for the marine generator, make a list of wattage ratings of all appliances that will be powered on the water craft. Note both the running and any startup wattage required for each appliance. This will help determine how much wattage a marine generator should be providing. A marine generator should provide 20% more wattage than required. Poweredgenerators.com recommends taking your wattage list to a generator dealer who can calculate the proper generator size for running all appliances at once. Another consideration is between the type of fuel for the generator. Gas and diesel are the two dominant types of marine generators but hydrogen is making a big push.
Features of Marine Generators

There are many features that marine generators should have and those that just making the experience of owning one better. A voltage regulator is a great feature to have because it controls the amount and quality of power going to electrical appliances. This prevents electrical damage and extends generator life. Another good feature is sound enclosures and quieter running engines. This is a feature that is not fully appreciated until tried out. A marine generator should also have very easily accessible maintenance areas. For easy engine maintenance, spin off fuel filters, sea water pump or other water separator, and other features help keep a generator running better. Control panels are a feature to definitely consider as it allows access to everything about the marine generator including amount of power, load, and fuel. Circuit breakers are additional add ons that can help protect marine generators and other electrical equipment. There are many other good features that extend marine generator lifetime, fuel efficiency, and many others as well.
Marine Generator vs Inverter

An inverter changes DC battery power into AC power that can be used to power electrical equipment on boats. For small boats with small electrical needs, this solution could be a good choice. However, a drawback to inverters is that power is derived from the boat's battery and wattage amounts are smaller than those of marine generators. Marine generators are designed to provide more consistent power that can be run for sometime without saving power from the boat's battery. Marine generators are better for higher power needs and bigger boat applications.


Electric Power Generators

With so many different applications, electric power generators

are increasingly becoming used as portable energy sources as well as emergency fail-safe ones. Electric generators are used in different locations including RV and mobile home power sources, commercial properties where fail-safe energy is needed which includes casinos and hospitals, and even government properties like dams and nuclear power plants, although these last locations will use much more costly and powerful generators.

Power generators are great products to help maintain electricity in homes during prolonged blackouts. They can keep the whole house powered or just certain appliances like refrigerators and freezers. Casinos use high electrical generators as backups to keep all slot machines and computers powered and hospitals have to have high powered generators to keep critical medical machines running. Government offices use extremely powerful backup generators to secure all necessary locations. Now that some of the useful applications of electric generators have been presented, lets discover the types of electrical generators.

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Are Homemade Wind Power Generators Feasible?

Although wind power generators have been around for over a hundred years, it never quite caught on. It's still not a mainstream source of power today but soaring energy costs and the eco-effects of conventional energy waste of late have forced a surge of interests in alternative renewable energy. Along with solar power panels, windmills can now be seen mushrooming across the country and have proven to be a viable source of energy as long as the territory is endowed with the required natural conditions.

As depicted in the name, the function of wind power generators is to produce power by utilizing the wind as fuel. This is obviously beneficial as wind is natural, free and unlimited in supply. Having that said, it is not always feasible or viable. For example, the wind resource in the locality must be of a certain level and the wind tower or structure must not pose any detriment to the surrounding. And are they cost-effective over the conventional form of power?

The operation of the wind power generator can be simplistically described within the theory of the Conservation of Energy. Kinetic energy of the wind or airflow is harnessed by the rotor blades into mechanical energy as the spindle is turned. The rotary force of the spindle is utilized in windmills to drive pumps and other mechanical systems directly or is further converted via a turbine into electrical energy. This power can be consumed on the fly or stored for later use.

A wind power home is a noble proposition these days but there are criteria to be fulfilled. Ideally, the house sits on a good-sized plot in a relatively spaced-out rural or sub-urban neighborhood. Surrounding wind resource is steady and even. The tower height of the wind system is functionally adequate and is in compliance with building requirements, along with other neighborhood aspects such as noise, endangerment and other hazards or inconveniences. The local supply grid also supports the interconnection of excess power for reverse credit or sale.

Even with the advancement of technology in this field, it is hardly practical to live off-grid with wind power as the sole source of power for your home. No matter what, the elements will never be 100 percent predictable and that's why it's most suitably used as a mutually complementary source of energy with solar power which will also endure crunch spells. Nevertheless, it's greatly beneficial even if it's deployed only as a supplementary supply to the power grid.

It's not rocket science to make wind power. There is plenty of information and literature at your finger tips over the internet. A handful of those DIY handbooks actually do a very neat job in guiding even the totally uninitiated to construct their own wind power generators from scratch. It's possible to not only slash your power bills but also get paid for the excess that is channeled back onto the utility grid. On top of that, there's the feeling of gratification from knowing that you have contributed to the green movement.

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Wind Power Generators - Practical Solutions For Your Home?

We love our gadgets and vehicles! However, our demand for power to run our beloved devices that make our lives seem easier grows daily while our supply decreases. Many believe it is about time that we take positive and responsible steps to save the power we use and generate new power efficiently and safely for our environment.

In addition to being careful about the power and water we use at home, we can employ pollution-free and cost-effective solutions in our homes. Solar and wind power generators are two of the most efficient and environmentally friendly solutions that can simply replace the conventional energy sources we use in our homes.

Solar and wind power generators can help you survive during power outages, and reduce your electricity bills while helping the environment.

This article focuses on the cost-effective energy savers that you can employ at home.

If the following applies to you, then wind power generators can save you a lot of money and Mother Earth a lot of suffering:

- You have a home spread over a large area. Typically, wind power generators are used in areas that are at least an acre.

- The average wind speed in your area is about 11 miles per hour. Little wind means little to no power. To discover if wind power generators are effective for your area, you can Google "average wind speed". Mt. Washington, New Hampshire wins with a whopping 35.1 mph annual average!

- Your house needs uninterrupted power supply. Combating power outages is easy with the pollution-free wind power generators. No more worries about a break in your work because of a power failure.

Typical wind power generators consist of a tower and five blades which create wind energy. The length of the wind tower varies depending on the location of your house. You may need a taller wind tower if you are in low-wind zone and you can effectively use a shorter tower if you live by the beach. When using wind generators, the energy can be converted into useful electricity to be employed at home for running various electrical appliances. You can even store the power generated for later use, which makes wind power generators more efficient than conventional systems.

Article Source: http://EzineArticles.com/?expert=Marcus_K.


Build Your Own Wind and Solar Power Generators

Have you ever thought about how you could get free energy to power your home? Will now you can by building your own wind and solar power generators. The reason that it is free energy is that you are not paying a big company to supply your power to you.

You can now easily build your own wind generator or solar panels for less than $200. Most of the parts that are needed to make these systems can be found for free, like storage batteries for your power, these can be found at any company that uses deep cycle batteries. The best place would be at a local forklift repair shop where they replace the batteries every couple years or so.

As for solar panels these can also be found for free, where you ask? Well have you ever seen signs on the sides of the road that use lights for warnings, most of these signs are solar powered. When things go wrong with the panels they just have to exchange them for new ones. They still work fine, so all you would have to do is locate the public roads department and see if you could scoop them up for next to no charge or maybe even free.

Installing solar panels or wind generators plus a battery bank to store all the power will give you more than enough energy to take your home off the grid. You can also go a step beyond and install so much power generating capacity that you can sell your power back to the grid and let the utility company pay you for a change.

Are you using all your home's comfort completely guilt free, laughing at rising energy prices, while saving the environment? If not now is your chance for free energy, Solar and Wind Energy



Vertical Wind Power Generators

The vertical axis wind turbine which is sometimes referred to as the (VAWT) for short, is a wind power machine that has been designed so that it maybe attached to a flat roof or stand on a platform in either the rural or urban environment. This type of generator has several advantages to it such as, because of the fact that it can be placed at the bottom close to the ground, the tower does not have to support the generator can be placed at the bottom, not only that but the turbine does not need to be pointed in the direction of the wind.

Although it certainly has its advantages, the turbine also has its disadvantages. Some of the disadvantages are that it is not an easy task to mount vertical axis turbines onto towers, because of this they normally have to operate slower and get the turbulent air flow close to the ground, which results in a less efficient energy extraction.

They only produce roughly 50% of the energy that a horizontal wind generator produces. They also have to be installed on a flat piece of land nothing steep and although steepness of an area might be a problem for a vertical wind generator, that is not a problem for a horizontal wind power generator.

However, like I said before it is not all negative there are also many advantages. Some of these include that seeing how the rotor blades are vertical, you do not have to have a yaw device so this reduces the need for a bearing and its cost. Vertical wind power generators can be at lower heights which can be useful when having to deal with laws that have certain height restrictions to them. Finally, smaller vertical wind generators are much easier to transport.

Article Source: http://EzineArticles.com/?expert=Munyaradzi_Chinongoza


Advances in Wind Power Generators

Wind power is a unique type of generated power because it relies on wind as a natural resource to generate power, which helps to keep the environment clean. Additionally, it can be abundantly available in many areas. Because of its many benefits, new technologies are continually in development to help promote wind power as a reliable energy source. In order for people to use this technology more readily and willingly, wind power needs to become a more efficient and accessible tool for generating energy. Some companies are doing just that.

Several companies are producing some of the most advanced hybrid solar-wind generators around. There are many technologies in place to generate energy with wind, but not all of them are advanced enough to provide the highest quality power available. Yet, various companies are working to take generators to the next level.

One of the most important tasks in taking wind power generators to the next level is by working to lower the current costs of producing them. While wind itself is not expensive, the materials to make up these systems of generating power are expensive. This makes it difficult for most people to take advantage of wind power. It is essential for the costs to come down, but not for the overall performance of wind power to decrease.

Some companies are working on developing systems that do this and much more. They are developing wind generators that work better at producing more energy and increasing performance, but are lowering the costs of production and making the technology quieter. Using systems that incorporate better overall durability and efficiency in turbine blades, these companies are developing products to push wind power to new frontiers.

Article Source: http://EzineArticles.com/?expert=Y._Tilden


Special Report. Steam Turbines: Finding and fixing leakage within combined HP-IP steam turbines: Part II

face=+Italic; By design, combined HP-IP turbines have a small amount of internal leakage from the high-pressure turbine to the intermediate-pressure turbine. As turbines age, the leakage increases considerably and becomes excessive, creating a heat rate penalty and possibly a reliability problem. Last month we explored the symptoms and causes of steam leakage within GE steam turbines and how to correct the problem. In Part II, we examine the same issues for Westinghouse and Allis-Chalmers turbines from both theoretical and practical angles.face=-Italic;For Westinghouse (Figure 1) and Allis-Chalmers combined high-pressure/intermediate-pressure (HP-IP) turbines, there are more design (and potential nondesign) leakages to the IP turbine than in General Electric machines. That's because the former units require balancing the thrust loading of the reaction blading. Leakage can enter the IP turbine inlet, IP turbine exhaust, low-pressure (LP) crossover pipes, and occur between split IP1/IP2 turbines. Its result can be an apparent increase or decrease of IP turbine efficiency, depending on the source.

Southern Company Generation (SCG) has found that trending of the apparent IP efficiency using the Booth-Kautzmann temperature split tests (discussed last issue in Part I) is very useful for resolving internal leakage problems on our Westinghouse and Allis-Chalmers turbines. It should be noted that the true IP blade path efficiency of these units is difficult to measure.

For later (BB44) Westinghouse turbines, the sources of design leakage (Figure 2) include:

Main steam inlet bell seals (the leakage bypasses the HP-IP turbine; more recent units indicate zero leakage on the design heat balance).

HP-IP-LP dummy balance seals (Figure 3).

HP exhaust piston seal rings.

IP inlet (hot reheat) piston seal rings.

Depending on the unit design, HP dummy seal leakage can affect HP turbine efficiency as it flows through the equilibrium pipes to the HP exhaust. If the IP dummy ring is severely distorted, it is possible for the IP dummy leakage to be a mix of HP dummy leakage and HP exhaust steam flowing in the reverse direction through the equilibrium pipes.

Among the sources of nondesign leakage are:

The HP inner shell horizontal joint (distorted shell or loose bolting).

Broken internal equilibrium balancing pipes.

A broken first-stage drain or pressure-sensing line between the inner and outer shell.

Piston seal rings on the IP turbine mid-point extraction pipe.

A missing mid-span balancing port plug in the inner shell.

Cracks in the main steam inlet pipes at the trepan radius.

face=+Bold; Relating efficiency to leakageface=-Bold;

For the BB44 design, two values of apparent IP efficiency should be measured. The IP efficiency measured from the hot reheat to the IP exhaust at the blading only takes into account the leakage effect of the IP dummy. The IP efficiency measured from the hot reheat to the LP crossover includes the effects of all HP to IP leakages. The temperature split tests are also used to estimate the IP dummy leakage and the total HP to IP leakage.

Although the test wells provided by the turbine manufacturer at the IP blading exhaust on the upper and lower (difficult-to-access) shells are in stratified locations, they are still useful for trending. Because the deaerator and boiler feedpump usually extract at these points, the temperature of the extraction line also should be measured. On one Southern Company unit that had been retrofitted with a new design IP dummy ring, we also installed two new test wells in the upper outer cylinder just upstream of the hot reheat inlet pipes. The results of testing using these wells still indicated some stratification of IP exhaust temperature.

A broken or cracked bell seal on a BB44 turbine can be diagnosed by trending the difference between the deaerator/boiler feedpump turbine extraction temperature and the LP crossover pipe temperature. If the former is several degrees lower than the latter and the two crossover pipes are at a different temperature, a bell seal or inlet pipe could be cracked.

For units with electrohydraulically controlled governor valves that are individually operated, the manufacturer's bell seal diagnostic test is useful to perform. Each of the eight governor valves is closed (and re-opened) and the above temperatures are trended. (Exercise caution when doing so on the normal initial opening governor valve, including temporarily disabling the unit trip function.) A change in the temperature differences will be observed on a leaking bell seal when the corresponding governor valve is closed; this reduces but does not eliminate the leakage, which is reverse flow from the first stage, rather than main steam. If the testing indicates that an upper bell seal is the problem, it can be fixed relatively quickly because only the upper half of the outer cylinder must be removed. But if the testing indicates a problem with a lower bell seal, fixing it will not be easy because it will require removing all HP-IP turbine components.

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Buying a Generator Tips You Need to Know

There are questions you need to ask before you buy a generator. How do I know what size to buy? How do I know if I buy one too big? Or if I buy one too small? There are questions that need to be answered before you purchase a generator.

Some factors you need to consider are as follows:

Size of generator to fit the load

Time of Use

Gas availability

Natural gas has the best advantage for a generator. If you don't have natural gas, you can pursue propane. This propane tank can be buried in the ground so it is out of your visual site. You can get up to 1000 gallon tank that could last up to two weeks depending upon the size of the generator and usage.

Most power outages occur between five to seven days. Hurricane Katrina was an exception. Most people were out of power for at least one month, most longer. Keep that in mind before purchasing a generator.

If you purchase a generator too small, you won't be able to run your central air conditioning. If you purchase one too big, you will be burning excess fuel for no reason. You may be over sizing yourself. Your fuel consumption will be higher than it needs to be.

A customer called last week to get a quote on a large generator he thought he needed. I gave him what he asked for but I suggested that I come out to his home to see exactly what his needs were. He may not need that large a generator for his house. Remember a larger generator will burn too much fuel and cost you money.

Before purchasing a generator, I suggest you consult and expert. This expert should be someone trained in the area to give you the most efficient generator you can possibly get. Your electrician will take load calculations on your house. Sizing is important. Don't size yourself. Leave that to the experts! They may save you money.

I would like to invite you to sign up for a free newsletter that would give helpful hints to you as a homeowner. Please visit us and sign up for our free newsletter at http://www.farbeselectric.com

Article Source: http://EzineArticles.com/?expert=Robert_Farbe

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Building a Wind Generator the Smart Way

If you're thinking about building a wind generator then I applaud your cunning. Too many people are paying thousands for reasons that don't fully make sense. So you know that and I'm thrilled, but do you know you can start building a wind generator that will save you 70% off your power bills for about $100? I'm not suggesting you build a junky wind generator here, this article is about how to build a high quality wind generator for that price.

So how do you get started? You obviously need the right information. You need to benefit from all the people that started building a wind generator but failed miserably. Actually, it's best to benefit from the handful that succeeded, isn't it? Well, luckily the ones that succeeded documented their finding and now you don't have to go into building a wind generator blind.

So now I'm going to go risk a limb here and assume you got the right plans to work from. Where do you go from here? As good as the plans can be at teaching you the right way of building a wind generator-and they can be very good - you will still like a little more information. While this isn't completely necessary, I suggest you join an online community dedicated to the subject of building a wind generator.

Aside from that, there really isn't anything the right plans don't cover. Just remember when building a wind generator, it's best to follow the plans exactly. Trust me, I'm speaking from personal experience and the best way to screw up a simple project like this is by deviating from the plans.

If you are interested in the best plans for building a wind generator with- and I mean the best I've ever seen, and from personal experience, ever used- then check out my link. I'm convinced there aren't better plans out there. check out these windmill power system plans here

Article Source: http://EzineArticles.com/?expert=Malcom_Reynolds

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Build a Wind Generator-Make a Wind Generator Yourself

Are you looking to build a wind generator? Then read on this article as you can get suitable information regarding how to build a wind generator yourself for less than $150.

Nowadays thousands of people around the world want to save their money which they are paying on electricity bills. They don't know that there is a alternative available to save their money on electricity. Yes there is one alternative available to save money on electricity is wind power. You can use wind power to generate electricity for your home.

You just need a wind generator to generate electricity from wind, as it is not that much difficult to build it as you think. You just need some parts to build it yourself, as these parts are available in your local hardware shops. like. dc motor,steel blades, pipes,nuts and bolts, electrical wire etc. The only thing you need is a perfect do it yourself plan from which you can build a wind generator easily. If you have a right plan then you can build a wind generator even if you don't have mechanical experience.

Therefore, it is possible to make your own wind generator so cheaply that it will literally pay for itself in just 2 or 3 months of use by all of the money you will be saving on your electric bill. There are many guides available on internet which show you step by step instructions with images on how to build a wind generator for your home. As thousands of people around the world using these guides to save their valuable money.

Learn how to Build A Wind Generator for less than $150. Get a complete review of earth4energy guide before going to buy it.

Article Source: http://EzineArticles.com/?expert=Katrina_Cold

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