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HYDROELECTRIC ENERGY

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Title: HYDROELECTRIC ENERGY


1
HYDROELECTRIC ENERGY
  • Murat Yakut
  • Ismail Yilmaz

2
CONTENT
  • What is the Hydroelectric energy?
  • History of Hydroelectric energy?
  • Potential Energy?
  • Kinetic Energy?
  • Mechanical energy?
  • How it works?
  • Component
  • Type Of Dam
  • Type Of Turibine
  • Advantage/Disadvantage

3
What is the Hydroelectric energy?
  • Generally ,Using the power of water currents to
    generate electric power.
  • Hydroelectric power is considered a renewable
    energy source.

4
History of Hydroelectric energy?
  • Nearly 2000 years ago the Greeks used water
    wheels to grind wheat into flour
  • The evolution of the modern hydropower turbine
    began in the mid-1700s when a French hydraulic
    and military engineer, Bernard Forest de Bélidor
    wrote Architecture Hydraulique.

5
Potential Energy?
  • Potential energy exists whenever an object which
    has mass has a position within a force field. 

6
Kinetic Energy?
  • Kinetic energy is the energy of motion. Any
    moving object has kinetic energy.

7
Mechanical energy?
  • Mechanical energy is a form of kinetic energy,
    such as in a machine. Mechanical energy has the
    ability to do work. Any object that is able to
    do work has mechanical energy.

8
How it works?
  • Falling or flowing water turns a propeller like
    piece called a turbine.
  • The turbine turns a metal shaft in an electric
    generator which produces electricity.

9
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11
Block Diagram
12
Component of Hydro Power
  • Dam  are massive barriers built across rivers
    and streams to confine and utilize the flow of
    water for human purposes such as irrigation and
    generation of hydroelectricity.
  • Intake water from the river/spring/dam/irrigatio
    n channel is diverted from its main course.General
    ly weir used to divertwater through intake into
    open channel.
  • Penstock pipeline supplying water from forebay
    to turbine. Mild steel, upvc and hdpe - most
    commonly used materials.
  • Power House houses turbine  generator with mecha
    nical control valves and electrical control
    panels. Switch yard and connection to
    distribution system.
  • Turbine hydro power in jet at end of penstock
    ransmitted to turbine runner - changes to
    mechanical power.
  • Generator electricity generated when
    turbine drives generator.

13
Type Of Dam
  • Arch Dam
  • Gravity Dam
  • Buttress Dam
  • Embankment Dam

14
Arch Dam
  • Arch shape gives strength
  • Less material (cheaper)
  • Narrow sites
  • Need strong abutments

15
Arch Dam
16
Gravity Dam
  • Weight holds dam in place
  • Lots of concrete (expensive)

17
Gravity Dam
18
Buttress Dam
  • Is a gravity dam reinforced by structural
    supports
  • a support that transmits a force from a roof or
    wall to another supporting structure
  • Face is held up by a series of supports
  • Flat or curved face

19
Buttress Dam
20
Embankment (Earth) Dam
  • They are trapezoidal in shape
  • Earth dams are constructed where the foundation
    or the underlying material or rocks are weak to
    support the masonry dam or where the suitable
    competent rocks are at greater depth.
  • Earthen dams are relatively smaller in height and
    broad at the base
  • They are mainly built with clay, sand and gravel,
    hence they are also known as Earth fill dam or
    Rock fill dam

21
Embankment (Earth) Dam
22
Scale of Hydropower
  • Large-hydro- More than 100 MW feeding into a
    large electricity grid
  • Medium-hydro -15 -100 MW usually feeding a grid
  • Small-hydro -1 -15 MW -usually feeding into a
    grid
  • Mini-hydro -Above 100 kW, but below 1 MW ,Either
    stand alone schemes or more often feeding into
    the grid
  • Micro-hydro -From 5kW up to 100 kW Usually
    provided power for a small community or rural
    industryin remote areas away from the grid.
  • Pico-hydro -From a few hundred watts up to 5kW
    Remote areas away from the grid

23
Type Of Turibine
  • Impulse Turbines
  • Pelton turbine
  • Turgo turbine
  • Michelle-Banki turbine
  • Reaction Turbines
  • Francis turbine
  • Kaplan turbine
  • Gorlov turbine

24
PELTON TURBINES
  • Entrance elbow
  • Injector
  • Regulator
  • Bun
  • Blades or spoons.

25
How it Works?
  • The Pelton turbines are used with high height
    jumps.
  • The gravitational power energy of the water
    dammed becomes in kinetic energy.
  • The injector throws the high speed water to the
    blades that are glued to the bun.
  • The water spurt transmits its kinetic energy to
    the bun, where it is transformed instantaneously
    into mechanical energy.

26
PELTON TURBINES
27
KAPLAN TURBINES
  • The turbines that take his name have
    revolutionized in these years the use of jumps of
    little height.
  • The Kaplan turbines are water reaction turbines
    of axial flow, with a bun that works in similar
    way to the helix of a boat.
  • The Kaplan turbine is a helix turbine in which
    the blades of the bun turn itself when it is on,
    adjusting automatically according the work to the
    conditions of optimal yield.

28
KAPLAN TURBINES
29
DERIAZ TURBINES
  • Deriaz invented later the turbine that takes his
    name
  • This turbine is reversible
  • The price of the machinery is reduced using the
    same machine like pump and turbine.

30
DERIAZ TURBINES
31
FRANCIS TURBINES
  • The Francis turbine is one of the reaction
    turbines
  • The radial flow causes the turn of the runner
  • This turbine is reversible
  • Francis turbines may be designed for a wide range
    of heads and flows

32
FRANCIS TURBINES
33
Advantage
  • Hydropowers fuel supply (flowing water) is clean a
    nd isrenewed yearly by snow and rainfall.
  • hydro plants do not emit pollutants into the air
    because they burn no fuel.
  • With growing concern over greenhouse gas emissions
     andincreased demand for electricity, hydropower m
    ay becomemore important in the future.
  • Hydropower facilities offer a range of additional 
    benefits.Many dams are used to control flooding
    and regulate water supply, and reservoirs provide
    lakes for recreational purposes,such as boating
    and fishing.
  • Low operating and maintenance cost

34
Disadvantage
  • Damming rivers may permanently alter river systems
     and wildlife habitats. Fish, for one, may no
    longer be able to swimupstream.
  • Hydro plant operations may also affect water quali
    ty bychurning up dissolved metals that may have
    been deposited byindustry long ago.
  • Hydropower operations may increase silting, change
     water temperatures, and lower the levels
    of dissolved oxygen.
  • Degradation of upstream catchment areas due to
    inundation of reservoir area.
  • High initial capital cost.

35
THANK YOU
  • Hydropower is a renewable energy source
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