Selasa, Februari 09, 2010

Energi Listrik Tenaga Angin

Energi Listrik Tenaga Angin

Hari ini energi angin digunakan sebagai sumber pembangkit listrik.Berikut ini sekilas tentang sistem pembangkit listrik menggunakan tenaga angin.

Wind is called a renewable energy source because the wind will blow as long as the sun shines.

The History of Wind

Since ancient times, people have harnessed the winds energy. Over 5,000 years ago, the ancient Egyptians used wind to sail ships on the Nile River. Later, people built windmills to grind wheat and other grains. The earliest known windmills were in Persia (Iran). These early windmills looked like large paddle wheels. Centuries later, the people of Holland improved the basic design of the windmill. They gave it propeller-type blades, still made with sails. Holland is famous for its windmills.

American colonists used windmills to grind wheat and corn, to pump water, and to cut wood at sawmills. As late as the 1920s, Americans used small windmills to generate electricity in rural areas without electric service. When power lines began to transport electricity to rural areas in the 1930s, local windmills were used less and less, though they can still be seen on some Western ranches.

The oil shortages of the 1970s changed the energy picture for the country and the world. It created an interest in alternative energy sources, paving the way for the re-entry of the windmill to generate electricity. In the early 1980s wind energy really took off in California, partly because of state policies that encouraged renewable energy sources. Support for wind development has since spread to other states, but California still produces more than twice as much wind energy as any other state.

The first offshore wind park in the United States is planned for an area off the coast of Cape Cod, Massachusetts (read an article about the Cape Cod Wind Project).

HOW WIND MACHINES WORK


Like old fashioned windmills, today’s wind machines use blades to collect the wind’s kinetic energy. Windmills work because they slow down the speed of the wind. The wind flows over the airfoil shaped blades causing lift, like the effect on airplane wings, causing them to turn. The blades are connected to a drive shaft that turns an electric generator to produce electricity.
With the new wind machines, there is still the problem of what to do when the wind isn’t blowing. At those times, other types of power plants must be used to make electricity.

TYPES OF WIND MACHINES

There are two types of wind machines (turbines) used today based on the direction of the rotating shaft (axis): horizontal–axis wind machines and vertical-axis wind machines. The size of wind machines varies widely. Small turbines used to power a single home or business may have a capacity of less than 100 kilowatts. Some large commercial sized turbines may have a capacity of 5 million watts, or 5 megawatts. Larger turbines are often grouped together into wind farms that provide power to the electrical grid.
Most wind machines being used today are the horizontal-axis type. Horizontal-axis wind machines have blades like airplane propellers. A typical horizontal wind machine stands as tall as a 20-story building and has three blades that span 200 feet across. The largest wind machines in the world have blades longer than a football field! Wind machines stand tall and wide to capture more wind.
Image of a horizontal wind machine.  Blades catch the wind and spin.  Generator converts mechanical energy into electricity.  Cable carries electricity to transmission line.  Computer system controls direction of the blades.
Vertical-axis

Vertical–axis wind machines have blades that go from top to bottom and the most common type (Darrieus wind turbine) looks like a giant two-bladed egg beaters. The type of vertical wind machine typically stands 100 feet tall and 50 feet wide. Vertical-axis wind machines make up only a very small percent of the wind machines used today.
The Wind Amplified Rotor Platform (WARP) is a different kind of wind system that is designed to be more efficient and use less land than wind machines in use today. The WARP does not use large blades; instead, it looks like a stack of wheel rims. Each module has a pair of small, high capacity turbines mounted to both of its concave wind amplifier module channel surfaces. The concave surfaces channel wind toward the turbines, amplifying wind speeds by 50 percent or more. Eneco, the company that designed WARP, plans to market the technology to power offshore oil platforms and wireless telecommunications systems.

WIND POWER PLANTS

Wind power plants, or wind farms as they are sometimes called, are clusters of wind machines used to produce electricity. A wind farm usually has dozens of wind machines scattered over a large area. The world’s largest wind farm, the Horse Hollow Wind Energy Center in Texas, has 421 wind turbines that generate enough electricity to power 230,000 homes per year.

Unlike power plants, many wind plants are not owned by public utility companies. Instead they are owned and operated by business people who sell the electricity produced on the wind farm to electric utilities. These private companies are known as Independent Power Producers.
Operating a wind power plant is not as simple as just building a windmill in a windy place. Wind plant owners must carefully plan where to locate their machines. One important thing to consider is how fast and how much the wind blows.

As a rule, wind speed increases with altitude and over open areas with no windbreaks. Good sites for wind plants are the tops of smooth, rounded hills, open plains or shorelines, and mountain gaps that produce wind funneling.

Wind speed varies throughout the country. It also varies from season to season. In Tehachapi, California, the wind blows more from April through October than it does in the winter. This is because of the extreme heating of the Mojave Desert during the summer months. The hot air over the desert rises, and the cooler, denser air above the Pacific Ocean rushes through the Tehachapi mountain pass to take its place. In a state like Montana, on the other hand, the wind blows more during the winter. Fortunately, these seasonal variations are a good match for the electricity demands of the regions. In California, people use more electricity during the summer for air conditioners. In Montana, people use more electricity during the winter months for heating.

WIND PRODUCTION

In 2005, wind machines in the United States generated a total of 17.8 billion kWh per year of electricity, enough to serve more than 1.6 million households. This is enough electricity to power a city the size of Chicago, but it is only a small fraction of the nation’s total electricity production, about 0.4 percent. The amount of electricity generated from wind has been growing fast in recent years, tripling since 1998.

New technologies have decreased the cost of producing electricity from wind, and growth in wind power has been encouraged by tax breaks for renewable energy and green pricing programs. Many utilities around the country offer green pricing options that allow customers the choice to pay more for electricity that comes from renewable sources.
Wind machines generate electricity in 25 different states in 2005. The states with the most wind production are California, Texas, Iowa, Minnesota, and Oklahoma.

The United States ranks third in the world in wind power capacity, behind Germany and Spain and before India. Denmark ranks number five in the world in wind power capacity but generates 20 percent of its electricity from wind. Most of the wind power plants in the world are located in Europe and in the United States where government programs have helped support wind power development.

WIND AND THE ENVIRONMENT

In the 1970s, oil shortages pushed the development of alternative energy sources. In the 1990s, the push came from a renewed concern for the environment in response to scientific studies indicating potential changes to the global climate if the use of fossil fuels continues to increase. Wind energy is an economical power resource in many areas of the country. Wind is a clean fuel; wind farms produce no air or water pollution because no fuel is burned. Growing concern about emissions from fossil fuel generation, increased government support, and higher costs for fossil fuels (especially natural gas and coal) have helped wind power capacity in the United States grow substantially over the last 10 years.

The most serious environmental drawbacks to wind machines may be their negative effect on wild bird populations and the visual impact on the landscape. To some, the glistening blades of windmills on the horizon are an eyesore; to others, they’re a beautiful alternative to conventional power plants.

Sustainable Systems designs windmills for the future

Drive down the highway or look in parking lots and poles are everywhere, says Terry Sankar, an engineering doctoral candidate at Robert Morris University. Imagine each one as a little electrical power plant, quietly and unobtrusively spinning out clean energy from the wind.
Sankar’s Pittsburgh-based company, Sustainable Systems, has developed an innovative approach to harnessing wind power, a vertical axis windmill that touts low cost, increased safety and flexibility in size and use. Every Target, McDonalds, and Whole Foods could be energy independent through windmill technology, Sankar muses.

Most wind turbines are oriented on a horizontal axis, much like an airplane propeller. Sankar’s version is fixed up and down, similar to an ancient Persian design. It resembles a large egg beater and may be installed on existing poles, towers, rooftops, almost anywhere.
“It has become increasingly clear that wind holds the greatest potential for satisfying the region’s and nation’s need for clean and renewable energy,” notes Sankar’s advisor, Zbigniew Czajkiewicz, an engineering professor who heads the University’s Center for Applied Research in Engineering and Science. “There is keen interest from the energy users we’ve talked with in regards to the development and commercial availability of such systems.”

Sankar has received a $25,000 University Innovation Grant from Ben Franklin Technology Partners to test and refine his designs. The system should be commercially available within two years. The company is currently installing a 60-foot prototype at Seven Springs Resort in southwestern Pennsylvania, the ideal testing ground, capable of generating 100kw of electricity.
Floating Windmills
Wind energy is one of the fastest growing energy options today. However, windmills are not without their drawbacks. Land based and close offshore windmills can ruin the view and can be somewhat noisy, although modern versions are much quieter than the originals. As well, winds are not always reliable, blowing in fits and gusts rather than in a steady rhythm.
Now Live Science is reporting that designers have created floating windmills that can be anchored between 30 to a hundred miles from shore where they are not in the way and where winds are stronger and steadier. They are able to generate an average of 5 megawatts compared to 1.5 for onshore and 3.5 for close offshore setups.
Because they do need to be built on a solid foundation like conventional windmills, these babies can be built on shore for a fraction of the cost and then towed into place with tugboats. As well, they can be shifted around to meet changing energy requirements up and down the coast.


 

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