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FLOATING WIND TURBINES

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Renewable energy is energy which comes from natural resources such as sunlight, wind, rain, tides, and geothermal heat, which are renewable. – PowerPoint PPT presentation

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Title: FLOATING WIND TURBINES


1
FLOATING WIND TURBINES
2
Introduction
  • Renewable energy is energy which comes
    from natural resources such as sunlight, wind, rai
    n, tides, and geothermal heat, which are
    renewable.
  • Climate change concerns, high oil prices, and
    increasing government support, accelerates the
    growth of this sector.
  • In 2008, about 19 of global final energy
    consumption came from renewable sources.
  • With nations pledging to reduce the carbon
    emission to counter global warming, the need for
    systems that generate renewable energy has been
  • on a rise.

3
WIND POWER
  • Wind power is the conversion of wind energy into
    a useful form of energy, such as
  • wind turbines to make electricity, 
  • wind mills for mechanical power, 
  • wind pumps for pumping water or drainage,
  • sails to propel ships
  • Wind energy has been the worlds fastest growing
    source of electricity during the past decade,
    with over 20 annual growth
  • Energy production from wind was 340 TWh, which is
    about 2 of worldwide electricity usage.

4
Wind turbines
  • A wind turbine is a rotary device that
    extracts energy from the wind.
  • If the mechanical energy is used directly by
    machinery the machine is called a windmill.
  • If the mechanical energy is instead converted
    to electricity, the machine is called a wind
    generator.
  • A wind farm is a group of wind turbines in the
    same location used for production of electric
    power.
  • Wind farms and wind turbines are built onshore as
    well as offshore.

5
Floating wind turbines
  • A floating wind turbine is an offshore wind
    turbine mounted on a floating structure.
  • As of December 2009, there have been two
    operational floating wind turbines
  • BLUE -H   80 kW
  • 21 km off the coast in waters 113
    meters deep, southeast of Italy.
  • HYWIND 2.3 mW
  • 10 km off the coast of Karmoy, Norway
    in 220-m deep waters.

6
The need
  • Power Output from a wind turbine is proportional
    to the cube of wind velocity
  • and to the square of the rotor diameter.
  • The wind can be stronger up to 10 m/sec and
    steadier over water due to the absence of
    topographic features.
  • Existing fixed-bottom wind turbine technology
    deployments had been limited to water depths of
    30-meters.
  • Worldwide wind resources are abundant over
    deep-waters.
  • Wind should be steady and consistent for the
    smooth working of turbines.
  • Noise and visual pollution created by fixed
    turbines near the costal areas are to be avoided.

7
power curve
Simplified wind turbine model.
8
Worldwide wind speed distribution
Wind velocity increases from lighter to darker
shade. From 1m/s to 10 m/s
9
Deep water offshore turbines
10
features
  • Floating platforms can be classified into.
  • single-turbine-floater (one wind
    turbine mounted on a

  • floating structures).
  • multiple turbine
    floater (multiple wind turbines mounted

  • on a floating structures)
  • The electricity generated is sent to shore
    through undersea HVDC cables.
  • There are mainly three types of systems used for
    station keeping for the turbine.
  • Barge System ,Spar Buoy
    System ,Tension Leg System

11
Three major designs
  • Barge Systems
  • Spar Buoy
  • Systems
  • Tension Leg
  • Systems

12
Wind turbine
13
mooring
  • It is the process of fixing the
  • floating structure to the seabed.
  • Absorb dynamic loads, transfer
  • load to seabed
  • TWO TYPES-
  • Catenary
  • Taut leg

14
Forces acting on the turbine
Hydrodynamic loads Aerodynamic loads
Horizontal and Vertical loads Dynamic and
static loads
15
drivers
  • Higher wind velocities allow higher capacity
    turbines to be installed.
  • Thus giving much more power output per
    installation when compared to fixed turbines.
  • Lower Offshore Wind Turbulence Longer Turbine
    Life 25-30 Years
  • Wind is-
  • Free
  • Inexhaustible
  • Environmentally Friendly
  • Clean
  • Safe
  • Cost Effective Energy Source.

16
Challenges
  • Huge initial cost when compared to other
    renewable energy sources.
  • The economics of deepwater wind turbines will be
    determined by the costs of the floating structure
    and power distribution system when compared to a
    fixed turbine.
  • Enough buoyancy to support the weight of the
    turbine and to restrain pitch, roll and heave
    motions .
  • Only at few sites with high wind speeds can
    compete economically
  • with conventional power production ,at
    present.

17
Challenges(contd..)
  • Offshore construction is more complicated and it
    should survive severe marine environments.
  • Maintainace is high when compared to on-shore
    turbines.
  • Complexity of the system.

18
conclusions
  • Blue H has successfully decommissioned the unit
    as they are planning to build a 38-unit
    deepwater wind farm at the same location.
  • The US State of Maine will be soliciting
    proposals in September 2010 to build the world's
    first floating, commercial wind farm.
  • Portugal govt is partnered with Principle Power
    to install a multi-megawatt full-scale floating
    wind turbine off the coast of Portugal in 2011.
  • The enormous wind energy resource offshore,
    covering more than 70 of the Earths surface,
    can be effectively tapped resulting in a cleaner
    and smarter energy

19
Thank you!
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