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RESOURCES FOR POWER GENERATION
The hydel power source plays a vital role in the generation
of
power, as it is a non-conventional perennial source of energy.
Therefore the French calls it huile
blanchewhite oil-the power of flowing water. Unlike black oil,
it is a non-conventional energy source. A
part of the endless cycle in which moisture is raised by the
sun, formed into clouds and th en dropped back
to earth to feed the rivers whose flow can be harnessed to
produce hydroelectric power. Water as a source of
power is non-polluting which is a prime requirement of power
industry today.
The worlds total waterpower potential is estimated as 1500
million kW at mean flow. This means that
the energy generated at a load factor of 50% would be 6.5
million kW-hr, a quantity equivalent to 3750
million tonnes of coal at 20% efficiency. The world hydel
installed capacity (as per 1963 estimate is only 65
million kW or 4.3% of the mean flow.
India has colossal waterpower resources. Indias total mean
annual river flows are about 1675
thousand million cubic meters of which the usable resources are
555 thousand million cubic meters. Out
of total river flows, 60% contribution comes from Himalayan
rivers (Ganga, Indus and Brahmaputra).
16% from central Indian rivers (Narmada, Tapti and Mahanadi) and
the remaining from the rivers
drainning
the Deccan plateau (Godavari, Krishna and Cauvery). Indias power
potential from hydel source as perthe recent estimate is 41500 mW
while its present hydel capacity is only 32000 mW. Still India has
got
enough hydel potential to develop to meet the increasing power
needs of the nation. The abundant
availability of water resources, its fairly even distribution
and overall economy in developing this source
of energy enhanced its development in India, The other factors
responsible in its rapid development are
indigenous technological skill, material and cheap labour. In
the IX five-year plan; the Government
considering the importance of this source has included a number
of hydro-projects. The major difficulty
in the development of hydroelectric projects is the relatively
longer time required for its hydrological,
topographical and geological investigations. Lack of suitable.
Site is an added problem for taking up
hydro-projects.
Hydropower was once the dominant source of electrical energy in
the world and still is in Canada,
Norway and Switzerland. But its use has decreased in other
countries since 1950s, as relatively lessexpensive fuel was easily
available. In USA, only 10% of the total power production is
water-generated.
In the light of fuel scarcity and its up surging prices, the
role of hydropower is again re-examined and
more emphasis is being laid on waterpower development. As per
Mr. Hays (Manager of Hydro Projects
in USA), It was less costly per mW to build a single 1000 mW
thermal plant than 20 small hydroplants.
But, with the increased fuel cost and high cost of meeting
environmental criteria for new thermal
plants, interest in hydro is being revived. Small hydro-projects
ranging from 10 to 1500 kW are
becoming
more feasible as standardization of major equipment reduces
costs. India is yet to start in the field of
micro-hydro projects, which is one major way for solving the
present power problem.
Hydro-projects generate power at low cost, it is non
conventional, easy to manage, pollution free
and makes no crippling demands on the transportation system. But
the major drawback is, it operates atthe mercy of nature. Poor
rainfall has on a number of occasions shown the dangers of over
dependence
on hydropower.
Let rivers flow and let rains shower the earth with prosperity
is the ancient prayer chanted by
Riches and continued to be chanted even now.
The development of hydropower systems as a back up for thermal
systems has significant advantages.
The flexible operation of hydraulic turbines makes them suitable
for. Peak load operation. Therefore,
the development of hydropower is not only economical but it also
solves the major problem of peak
load. The present Indian policy of power development gives
sufficient importance for the hydel-power
development. The next important source for power generation is
fuel in the form of coal, oil or gas.
Unfortunately, the oil and gas resources are very much limited
in India. Only few power plants use oil or
gas as a source of energy. India has to import most of the oil
required and so it is not desirable to use itfor power generation.
The known resources of coal in India are estimated to be 121,000
million tonnes,
which are localized in West Bengal, Bihar, Madhya Pradesh and
Andhra Pradesh. The present rate of
annual production of coal is nearly 140 million tonnes of which
40 million-tonnes are used for power
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generation. The coal used for power generation is mainly
low-grade coal with high ash content
(20-40%).
The high ash content of Indian coal (4050%) is one of the causes
for bad performance of the
existing steam power plants and their frequency outages, as
these plants have been designed for low ash
coals. Due to the large resources of coal available in the
country, enough emphasis has been given for
thermal Power plants in the IX plan period.
The location of hydel-power plants is mostly determined by the
natural topography available and
location of thermal plants is dictated by the source of fuel or
transportation facilities available if the,
power plant is to be located far from coalmines. For nuclear
power plant any site can be selected paying
due consideration to safety and load. India has to consider
nuclear generation in places remote from coal
mines and water power sites. The states which are poor in
natural resources and those which have little
untapped conventional resources for future development have to
consider the development of nuclear
plants.
The nuclear fuel which is commonly used for nuclear power plants
is uranium. Deposits of
uranium have been located in Bihar and Rajasthan. It is
estimated that the present reserves of uranium
available in country may be sufficient to sustain 10,000 mW
power plants for its thorium into nuclear
Indian lifetime. Another possible nuclear power source is
thorium, which is abundant in this country,estimated at 500,000
tonnes. But the commercial use of this nuclear fuel is tied up with
development of
fast breeder reactor which converts energy economy must wait for
the development of economic
methods
for using thorium which is expected to be available before the
end of twentieth century. The major
hurdle in the development of nuclear power in this country is
lack of technical facility and foreign
exchange required to purchase the main component of nuclear
power plant. Dr. Bhabha had envisaged
8000 mW of power from nuclear reactors by 198081 which was
subsequently scaled down to a more
realistic level of 2700 mW by Dr. Sarabhai out of this only 1040
MW has materialized which is less than
1.5% of the countrys installed power capacity. Moreover the
performance of nuclear plants has been
satisfactory compared to thermal plants.
