2. In hydroelectric power station potential and
kinetic energy of stored water is converted
into electric energy .
For hydro power station factors like
rainfall,steam flow available head and
storage facilities are studied.
25% of electricity generation capacity in
world is provided by hydel power plant.
In the countries like Norvey 99% electricity
is produced by hydelpowerplant.
INTRODUCTION
3. 4% of the total hydel energy potential in world
is in India.
In India 25.32% of total electricity generation
capacity is produced by hydel power plant.
As per rocords of March-2000 23,816 MW
electricity was generated by hydel power plant.
It is increasing day by day because of the
institutes like National Hydro Power
Corporation Limited(NHPCL).
4. PURPOSES OF HYDROPROJECT
For irrigation of agricultural land.
For fisheries and tourism.
For flood control.
For civil water supply.
For generation of electricity.
5. BASIC ELEMENTS OF HYDEL POWER
PLANT
PRIMARY ELEMENT’S
CATCHMENT AREA
RESERVOIR
DAM
PRIME MOVERS
DRAFT TUBES
POWER HOUSE & EQUIPMENT
SAFETY DEVICE’S
SPILL WAY’S
SURGE TANK
TRASH RACK
6. CATCHMENT AREA
The whole area behind the clam training into a
stream as river across which the dam has been
built at suitable place is called catchments area
RESERVOIR
A reservoir is employed to store water which is
further utilized to generate power by running
the hydroelectric turbines.
DAM
A dam is a barrier which confines or raise water
for storage or diversion to create a hydraulic
head. Dam’s are generally made of concrete,
Stone masory, Rockfill or Timber
7. TURBINE
Turbine is a very light fan like structure having many
number’s of blades . It has an ability to rotate on its
axis when water passes through it.
GENERATOR
Generator is a device in which when there is rotation
of coil between the strong Magnetic Field then it
produces an Alternating Current.
DRAFT TUBES Draft Tube is an empty structure
made beneath the Turbine. It serves following
purpose’s
8. It allows the turbine to be set above tail water level
without loss of head, to facilitate inspection and
maintenance.
It regains by diffuser action , the major portion of the
kinetic energy delivered to it from the runner.
It increases the output power.
It increases the efficiency of Hydro Power Plant.
PENSTOCK
Penstock is the connecting pipe between the dam &
the turbine house. It helps to increase the kinetic
energy of the water coming from the dam and is made
up of a very strong material which can sustain the
high pressure of water.
9. POWER HOUSE & EQUIPMENT
Some more components are required for the proper,
user friendly & smooth functioning of the power plant.
These components are as follow
VALVE :- This the instrument which is used to control
the pressure of flow of water .
PUMPS :- This device is used to send water
or any fluid from lower potential to higher
potential.
SAFETY DEVICE’S
Spill Way’s
Spill Way’s is a kind of canal provided besides
the dam. It is used to arrange the excess of
10. accumulation of water on the dam because
excess accumulation of water may damage the
dam structure
SURGE TANK
When there is a sudden close or decrease in
pressure due to control valve then there is a back flow
of water. This creates a high pressure zone in the
penstock due to which it may burst . This effect is
known as WATER HAMMERING EFFECT . To avoid
this a tank is attached to the penstock which stores
water in it . This tank is called as Surge Tank.
11.
12. According to plant capacity:-
a) Microhydal plant (upto 5 MW )
b) Medium capacity plant ( 5-100 MW )
c) High capacity plant (100 MW )
d) super plant ( above 100 MW )
According to place of power house:-
a) Surface power house plant
b) Under ground power house plant
According to turbine specific speed:-
a) High specific speed plant
b) Medium specific speed plant
c) Low specific speed plant
13. According to availability of water:-
a) Run of river plant without pondage
b) Run-off river plant with pondage
c) Storage plant
d) Pump storage plant
According to head :-
a) Low head plant
b) Medium head plant
c) High head plant
According to load :-
a) Base load plant
b) Peak load plant
15. • Initially the water of the river is in Catchments Area.
• From catchments area the water flows to the dam.
• At the dam the water gets accumulated . Thus the
potential energy of the water increases due to the
height of the dam .
• When the gates of the dam are opened then the
water moves with high Kinetic Energy into the
penstock.
• Through the penstock water goes to the turbine
house.
• Since the penstock makes water to flow from high
altitude to low altitude, Thus the Kinetic Energy of the
water is again raised.
16. • In the turbine house the pressure of the water is
controlled by the controlling valves as per the
requirements.
• The controlled pressurized water is fed to the turbine.
• Due to the pressure of the water the light weight
turbine rotates.
• Due to the high speed rotation of the turbine the shaft
connected between the turbine and the generator
rotates .
• Due to the rotation of generator the ac current is
produced.
• This current is supplied to the powerhouse .
• From powerhouse it is supplied for the commercial
purposes.
17.
18. WATER TURBINES USED IN
HYDEL POWER PLANT
PELTON TURBINE
FRANCIS TURBINE
KAPLAN TURBINE
21. ADVANTAGES OF HYDRO POWER
PLANT
This plant is free from pollution.
Its operation and maintenance cost is less.
It has no stand by losses.
Unit cost of power is less.
Hydraulic turbines can be started speedily.
The plant has longer service life.
No fuel is required.
No change in efficiency with the age.
22. Disadvantages of hydro
power plant
Initial cost of dam and plant is high.
The availability of power from it is not
much reliable.
Loss of forest creates environmental
problems.
Due to evaporation , considerable water is
lost.
Time required for construction of
hydroproject is more.
23. AUXILIARIES ATTACHED
WITH HYDEL POWER
PLANT.(A)Electrical instruments
Generator
Exciter,transformers
Switch gears
Other instruments of
control room
(B)Mechanical instruments
Shaft coupling,journal
bearings,thrust bearings
Lubricating oil system
Cooling system
Brake system for
generator-turbine shaft
24. 1 Itaipu Brazil/
Paraguay
12,600 1984
2 Guri Venezuela 10,300 1968
3 Grand Coulee United
States
6,480 1942
4 Sayano-
Shushensk
Russia 6,400 1980
5 Krasnoyarsk Russia 6,000 1968
6 La Grande 2 Canada 5,328 1982
7 Churchill Falls Canada 5,225 1971
8 Bratsk Russia 4,500 1964
9 Ust-Ilim Russia 4,500 1974
Ran
k
Name of
Dam Location
Rated
Capacity
(Megawatts)
Year of
Completed
World’s Largest Dams
By Power Generating Capacity
25. 1 Owen Falls Uganda 204,800 1954
2 Kariba Zimbabwe
/Zambia
180,600 1959
3 Bratsk Russia 169,270 1964
4 Aswan High Egypt 168,900 1970
5 Akosombo Ghana 148,000 1965
6 Daniel Johnson Canada 141,852 1968
7 Guri (RaulLeoni) Venezuela 136,000 1986
8 Krasnoyarsk Russia 73,300 1967
9 W.A.C. Bennett Canada 70,309 1967
10 Zeya Russia 68,400 1978
Ra
nk Name of Dam Country
Storage
Capacity
Cubic
Meters
Year of
Completed
World’s Largest Dams
By Storage Capacity
26. 1 Rogun Tajikistan 335 1989
2 Nurek Tajikistan 300 1980
3 Grand Dixence Switzerland 285 1961
4 Inguri Georgia 272 1980
5 Boruca Costa Rica 267 1990
6 Vaiont Italy 262 1961
7 Chicoasen Mexico 261 1980
8 Manuel M.
Torres
Mexico 261 1981
9 Alvaro
Obregon
Mexico 260 1946
10 Mauvoisin Switzerland 250 1957
Rank Name of Dam Country
Height
(m)
Year of
Completed
World’s Largest Dams
By Height