Energy and uses of energy
Energy is a
primary need along with food, cloth and shelter. We need energy in different
forms for different type of works.
· The
energy may be in the form of mechanical energy, chemical energy, sound energy,
heat energy and light energy etc.
Green energy :-
The eco-friendly form of energy which
do not cause environmental problems and are non- exhaustible,
perpetual and sustainable is called as green energy.
Examples-
Hydroelectric energy, wind energy, solar energy, tidal energy, energy obtained
from biofuels etc.
These sources of energy do not produce toxic gases or other pollutants
therefore they are safe.
Generation of
electrical energy
Most of the electric power plants
are based on the electromagnetic induction.
According to this principle, whenever
magnetic field around a conductor changes, a potential difference is
generated across the conductor. The field around the
conductor can be changed by two ways.
1. If a conductor is stationary and
magnet is rotating.
2. If a magnet is stationary
and conductor is rotating.
In both
these cases, electric current is induced in the conductor.
v Large generators are used in
commercial power plants.
v Turbine is used to rotate the magnet
in the generator.
v A turbine has blades. When a flow of
liquid or gas is directed on the blades, it rotates due to the kinetic energy
of the flow.
v This turbine is connected to electric
generator. Hence, the magnet in the generator rotates and electricity is
generated.
v
Thermal energy based electric power station
v In thermal power plant the turbines
are rotated using steam.
v Coal is used to generate a steam of
very high temperature and pressure.
v The kinetic energy in the steam
rotates the turbines. The rotation of turbines produces its own mechanical
kinetic energy.
v The generator connected to the
turbine rotate an electrical energy is produced.
v The steam is condensed in the
condenser and converted back into water and the water is re-circulated to the
boiler.
v In thermal power plants, thermal
energy is converted into kinetic energy. Kinetic energy is converted into
mechanical energy and mechanical energy is converted into electrical energy.
Problems
associated with thermal power plants
v Due to the burning of coal the
mission of carbon dioxide, Sulphur dioxide nitrogen dioxide and carbon monoxide
takes place. These gases are harmful to the health.
v Shoot particles emitted during
combustion causes respiratory problems such as asthma.
v The coal reserves in the world are
limited. So in the future there will be limitations on the availability of the
coal.
Nuclear power plants
v In nuclear power plants, the energy
is released by fission of atoms like uranium and plutonium.
v This energy is used to generate a
steam of very high temperature and pressure.
v The kinetic energy in the steam
rotates the turbine.
v The turbine rotates the generator to
produce electrical energy.
Formation of nuclear
energy
v When the neutron is bombarded on atom
of U – 235, it absorbs the neutron and convert into isotope U – 236.
v U-236 is extremely unstable and
converts into atoms of barium and krypton through a process of fission
releasing three neutrons and 200 MeV energy.
v These three neutrons cause fission of
the other U-235 atoms releasing more energy.
v This process of fission of U - 235 atoms is continuous
and is called as chain reaction.
Advantages of nuclear power plants
v It does not use fossil fuel like
coal.
v It does not cause air pollution.
v If sufficient nuclear fuel is
available, it can be a good source of electrical energy.
Problems associated
with nuclear power plant
v The disposal of nuclear waste is a
big challenge before the scientists.
v An accident in nuclear power plant
can be very fatal.
v The accident in nuclear power plant
may result in release of very harmful radiations.
[Nuclear power plants in India are as follows:- Tarapur,
kundakulam, BARC (Bhabha atomic research centre), Narora, Ravatabhata]
Natural Gas Power plant
v In this power plant, the turbine is
run by a gas at a very high temperature and pressure generated by combustion of
natural gas.
v In this plant there are three main
sections as compressor, combustion chamber and turbine.
v Pressurized air is introduced into
the combustion chamber using a compressor.
v In the combustion chamber, the
natural gas burns in the presence of air.
v The gas at very high temperature and pressure
generated in this chamber runs the turbine. The turbine then drives the
generator to produce electricity.
Advantages of natural Gas Power plant
ü It is more efficient than thermal
power plant.
ü It causes less pollution because
there is no sulphur in natural gas.
Electric energy generation using solar energy
Solar energy can be used to make
electric energy in following two ways -
v Using radiation from sunlight without
using a transformer, it is trapped directly into solar photovoltaic cells. The
solar energy is directly converted into electrical energy in photovoltaic
cells.
v Solar energy is converted into
thermal energy and later by driving turbine generator - system the thermal
energy is converted into electricity.
1. Solar photovoltaic cell
v Solar photovoltaic effect is the
conversion of solar energy directly into electrical energy. Such generated
energy is DC (direct current) in nature.
v The solar cells are made up of
silicon.
v A silicon solar cell of dimension 1 cm2
generates a current of 30 mA (milliampere) and potential difference of about
0.5 volt.
v Therefore a silicon solar cell of
dimension 100 cm2 generates about 3 ampere current and potential
difference of about 0.5 volt.
v The potential difference available
from a solar cell is independent of its area.
1. Solar cells connected in series
v When two solar cells are connected in
series, the potential difference after 10 from both the cells is the sum of the
potential difference of individual solar cells.
V = V1 + V2
v The current generated from
combination in series is equal to the current from an and individual cells.
I = I1= I2
v In this combination, current from the
individual cells cannot be added.
2. Solar cells connected in parallel
v When two solar cells are connected in
parallel, the potential difference obtained from this combination is equal to
the potential difference of each cell.
V = V1 = V2
v The potential difference cannot be
added when the combination is in parallel.
v The current generated from the two
cells in parallel is the summation of the current from individual cells. I = I1 + I2
Solar panel :-
v Solar panels are formed by connecting
many solar cells in series and in parallel combination.
v Desired potential difference and
current can be obtained by making solar panels by connecting solar cells in series
and in parallel.
v The DC power is available from the
solar cells. So, it can be used for LED lights and other appliances that work on DC power.
v Most of the domestic appliances run
on AC power.
v Therefore, DC solar power is
converted to AC power with the help of inverter.
v Solar energy is available only in the
presence of sunlight; therefore it is stored in batteries for later use.
Advantages of solar energy:-
v It does not cause any pollution.
v Electricity is generated without any
fuel combustion.
v It is eco-friendly, green energy.
v The technology can be completely utilized
in regions with abundant sunlight.
Limitations of solar energy:-
v Solar energy is only available during
daytime.
v The production of electric energy is
affected by cloudy weather.
v The power present in the solar cells
is DC while most of the domestic equipments work on AC.
