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What is Ocean Thermal Energy Conversion

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What is Ocean Thermal Energy Conversion The oceans cover a little more than 70 percent of the Earth's surface. This makes them the world's largest solar energy ... – PowerPoint PPT presentation

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Title: What is Ocean Thermal Energy Conversion


1
What is Ocean Thermal Energy Conversion
  • The oceans cover a little more than 70 percent of
    the Earth's surface. This makes them the world's
    largest solar energy collector and energy storage
    system.
  • On an average day, 60 million square kilometers
    (23 million square miles) of tropical seas absorb
    an amount of solar radiation equal in heat
    content to about 250 billion barrels of oil.
  • If less than one-tenth of one percent of this
    stored solar energy could be converted into
    electric power, it would supply more than 20
    times the total amount of electricity consumed in
    the United States on any given day.

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There are three ways the OTEC method can produce
electricity.
  • Closed-Cycle
  • This system relies on low-boiling point fluids
    such as ammonia. The warm ocean water is used to
    heat up and boil the ammonia, which will turn a
    turbine. The turbine then produces electricity.

11
Open-Cycle
  • This system relies on a low-pressure environment
    to actually boil the ocean water and create
    steam. When warm ocean water moves into a
    low-pressure environment it will boil. The steam
    is almost pure water as the salts and other
    impurities are left behind. The steam then
    recirculates to deeper and colder areas of the
    ocean and condenses back to water. Just like the
    ammonia gas, the steam will turn a turbine.

12
Hybrid System
  • This system simply combines both Closed and Open
    Cycle systems.

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Ocean Thermal Energy Conversion
  • The ocean thermal energy can be harnessed by
    means of a thermodynamic cycle, which uses the
    temperature gradient between the cold deep waters
    and the warm surface waters. It is estimated
    that, the amount of solar energy absorbed
    annually by the oceans is equivalent to 4000
    times the world energy demand in the same period

14
  • The main problem with this renewable energy is
    the necessity of a temperature gradient higher or
    equal to 20ºC, between the hot and cold
    reservoir. The higher the temperature difference,
    the better efficiency it will have.
  • This requirement is only fulfilled in tropical
    and equatorial zones during the whole year.

15
  • The OTEC systems efficiency is not quite high
    because of the little temperature difference used
    in the thermodynamic cycles. Although the ideal
    energy conversion using 26 ºC and 4 ºC warm and
    cold seawaters is 8, due to several losses final
    3-4 efficiency is get

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Advantages
  • Damaging environmental effects are minimized if
    the cold water is discharged to the ocean at
    enough depth.
  • Highly available energy resources.

17
Disadvantages
  • The small land based OTEC plants need kilometres
    of piping to move a high volume of cold water fro
    deep ocean. Its cost could be up to the 75 of
    the total power plant costs. Therefore,
    researches show that power plants with a rated
    power lower than 50 MW can not compete with other
    energy sources.
  • As an example, a 50 MW power plant would require
    a 3 km long pipe with a 8 m diameter to pump 150
    m3/s of cold water The suitable locations to
    harness this kind of energy are reduced to
    equatorial and tropical zones.
  • Low thermal efficiency due to the low
    temperature difference between the cold and hot
    reservoir (around 22 ºC).
  • Although floating OTEC plants could apparently
    be as olution, maintenance and repair costs would
    also be high.
  • Floating plants and piping of land based plants
    must withstand high stresses during storms.

18
Comparative table of different sea energy
resources
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