WIND POWERWIND POWER
WINDWIND
An estimated 1% to 3% of energy from the An estimated 1% to 3% of energy from the Sun that hits the earth is converted into Sun that hits the earth is converted into wind energy. wind energy.
The principle of wind is simple. The poles The principle of wind is simple. The poles recieve less energy than the equater does recieve less energy than the equater does from the sun. Also land heats up and cools from the sun. Also land heats up and cools down more quickly than the seas. This down more quickly than the seas. This difference between the seas and the land difference between the seas and the land causes a global atmospheric convection causes a global atmospheric convection system. system.
GENERAL INFORMATION ABOUT GENERAL INFORMATION ABOUT WIND TURBINESWIND TURBINES
Producing electricity from wind power has started Producing electricity from wind power has started 100 years ago.100 years ago.
The petroleum crisis in the 1970s has started the The petroleum crisis in the 1970s has started the development in wind turbines.development in wind turbines.
Modern wind turbines are generally two or three Modern wind turbines are generally two or three bladed.bladed.
Their rotor diameter is generally 10 to 30 meters.Their rotor diameter is generally 10 to 30 meters. Their lifetime is at least 20 years.Their lifetime is at least 20 years. They are controlled by a computer system.They are controlled by a computer system. An economic power plant has a capacity of about An economic power plant has a capacity of about
10-30MW.10-30MW. Wind speed increases by height so many tirbunes Wind speed increases by height so many tirbunes
are around 30-50 meters tall.are around 30-50 meters tall.
THE PRINCIPLE OF A WIND THE PRINCIPLE OF A WIND TURBINETURBINE
The wind power can be gained by The wind power can be gained by making it blow past the blades that making it blow past the blades that will cause the rotor to twist. The will cause the rotor to twist. The amount of power transferred is amount of power transferred is directly proportional to the density of directly proportional to the density of the air, the area swept out by the the air, the area swept out by the rotor, and the cube of the wind rotor, and the cube of the wind speed. It can be found out by the speed. It can be found out by the following equation:following equation:
1.Onshore1.Onshore Onshore wind turbines are placed in hilly and Onshore wind turbines are placed in hilly and
mountainous places and are at least three mountainous places and are at least three kilometers away from the nearest shore.kilometers away from the nearest shore.
2.Near-shore2.Near-shore Near-shore wind turbines are installed within Near-shore wind turbines are installed within
three kilometers from the nearest shore or on three kilometers from the nearest shore or on water within ten kilometers from land.water within ten kilometers from land.
3.Offshore3.Offshore Offshore wind turbines’ developement zones are Offshore wind turbines’ developement zones are
at least ten kilometers away from land.at least ten kilometers away from land.
TYPES OF WIND TURBINESTYPES OF WIND TURBINES
TYPES OF WIND TURBINESTYPES OF WIND TURBINES
4.Vertical-axis 4.Vertical-axis The main difference of vertical-axis wind The main difference of vertical-axis wind
turbine is that the blades are installed turbine is that the blades are installed vertically while other turbins’ blades are vertically while other turbins’ blades are installed horizontally.installed horizontally.
5.Airborne5.Airborne Airborne wind turbines are tethered aeral Airborne wind turbines are tethered aeral
turbines filled with helium.turbines filled with helium.
WIND POWER IN TURKEYWIND POWER IN TURKEY
Turkey is a eligable country at the point of Turkey is a eligable country at the point of producing electricity from wind power producing electricity from wind power because,because,1.It is located in the temperate zone.1.It is located in the temperate zone.2.Surrounding dinamic pressure contrasts 2.Surrounding dinamic pressure contrasts are very effective.are very effective.3.There are coasts on the northern, 3.There are coasts on the northern, western and southern sides of the land. western and southern sides of the land. 4.The position and the outstrech of the 4.The position and the outstrech of the mountains.mountains.
Wind potentials 50 meters above sea level at five different topographic situation.Inland areas Bare lands Coasts Open seas Hills and slopes
THE WIND POWER THE WIND POWER DISTRIBUTION FOR EACH DISTRIBUTION FOR EACH
REGION IN TURKEYREGION IN TURKEYName of region Approximated wind power
density(W/m2)
Mediterannian Region 21.36
Centeral Anatolian Region 20.14
Agean Region 23.47
Blacksea Region 21.31
Eastern Anatolian Region 13.19
Southeastern Anatolian Region
29.33
Marmara Region 51.91
Primary locations for wind power in Turkey
•Where transportation is always possible and easy,•Near the transformer stations.•On top of bare hills.
•Balıkesir Şamlı•İzmir Çeşme •Gelibolu Fındıklı
Secondary locations for wind power
•Where transportation is always possible and easy •Near transformer stations•Coasts and fields
•Bandırma – Manyas – Karabiga•Çeşme
Tertiary locations for wind power
Where transportation is always possible, Near transformer stations, Bare lands( fields).
Fourth degree locations for wind power
• Where transportation is not always possible, so new road(s) must be built for maintenance of the turbines.• not near transformation stations. • Moderately planted hills.
İzmir – Çeşme- KocadağÇanakkale – Ayvacık – Bozcaada – Gelibolu
Fifth degree locations for wind power
• Where transportation is not always possible, so new road(s) must be built for maintenance of the turbines.•Not near transformation stations. •Forested hills.
Balıkesir – Balya – YeniceÇanakkale – Çan – Bigaİzmir – Bergama
THE USE OF BIG-ROTOR THE USE OF BIG-ROTOR TURBINES TURBINES
Electricity produced by Electricity produced by big rotors get transferred big rotors get transferred to centeral electricity to centeral electricity network. Some of the network. Some of the electricity that’s needed electricity that’s needed in industrial fields is in industrial fields is provided from wind provided from wind power. power.
THE USE OF SMALL-ROTOR THE USE OF SMALL-ROTOR TURBINESTURBINES
Small turbines are generally Small turbines are generally used in the fields where used in the fields where centeral electricity network centeral electricity network has problems providing has problems providing energy or there is no way to energy or there is no way to reach it. Settlements at reach it. Settlements at country sides, farm houses, country sides, farm houses, telecommunication and telecommunication and radio transmitters, forestry radio transmitters, forestry observation towers, military observation towers, military facilities, railroad facilities, railroad signalization, fish farms, signalization, fish farms, green houses, mines, ships green houses, mines, ships are some examples of these are some examples of these fields. The electricity fields. The electricity produced by these turbines produced by these turbines get stored in generators.get stored in generators.
ADVANTAGES AND ADVANTAGES AND DISADVANTAGES OF WIND DISADVANTAGES OF WIND
POWERPOWER ADVANTAGES:ADVANTAGES:1.It’s unlimited.1.It’s unlimited.2.They don’t cover up a lot of space and the spaces 2.They don’t cover up a lot of space and the spaces
between are usable.between are usable.3.When the turbines become unusable they can be 3.When the turbines become unusable they can be
disposed easily and the area left behind can be disposed easily and the area left behind can be reused.reused.
4.Wind industry is developing speedily around the 4.Wind industry is developing speedily around the world.world.
DISADVANTAGES:DISADVANTAGES:1.They produce unwanted sounds.1.They produce unwanted sounds.2.They can block electromagnetic waves.2.They can block electromagnetic waves.
THANKS FOR YOUR THANKS FOR YOUR PATIENCEPATIENCE