ENERGY SAVING UNDER PRESENT POWER SCENARIO
India has 16% of
world’s population, but less than 1% of the world’s energy resources. There is
a huge difference in the demand and availability of energy. The total installed
capacity is 207006MW and the present peak demand is 217000MW. However this peak
demand has not taken into account energy generated through alternate sources. Hence
the peak demand may be 10% higher if alternate sources are factored in. The
real challenge for the power sector is to narrow this gap. This can be done by
increasing the installed capacity but it requires high CAPEX. The second option
is to narrow the gap through energy saving or energy conservation.
There is a huge
potential to save energy in various sectors i.e. Industrial, Agriculture and
domestic. Energy conservation can be achieved by both, a promotional and a
regulatory role. Promotional role includes awareness, education, training,
demonstration etc. Regulatory role includes energy audits, deciding the norms
of energy and implementation of standards through act of parliament.
Some areas of energy
conservation are as below:
Supply Side
A) Improving existing
thermal power station performance
B) Grid Management
C) Reducing losses in
transmission and distribution system
Demand Side
Energy saving
initiations can be taken in the following sectors. It is estimated that these initiatives
can save upto 20% energy i.e. it can totally end the demand supply gap.
A) Industrial Sector
B) Domestic Sector
C) Commercial Sector
D) Agriculture Sector
Now let us talk about
the Energy Conservation on Demand side as most of us are concerned with Demand
side. Energy used in Ind., Domestic & Comm. sector plays a vital role in
whole energy scenario. Energy saving can be promoted by educating the consumer
for using the good quality power i.e. by improving the voltage profile, improving
the power factor of system, balance power supply Etc.
When our installed equipment
does not get optimum voltage, it consumes excessive energy. This energy wastage
is, however, invisible & goes unnoticed. But this poor quality power will
have a great impact on our energy bills as well as our costly equipment could
be damaged due to this voltage fluctuation. Besides voltage fluctuations and imbalance of phase voltage is also an important factor of
energy loss. Unbalancing between the ph. voltages generate problems like
heating motors and wiring and hence, increased energy consumption etc.
Electric utilities aim to
provide service to customers at a specific voltage level, for example, 220V or
240V, but service voltage to customers will in fact vary along the length of a
conductor of a distribution feeder. Since there is no law and local practice,
actual service voltage exceeds the tolerance band such as ±5% or ±10%. In order
to maintain voltage within tolerance under changing load conditions, various
types of devices are traditionally employed by the consumers themselves. In
India fluctuations in input power supply are common and frequent and input voltage
practically varies between 300 to 480V. If we are able to optimize this
fluctuation we can save the energy as well as life and reliability of our
installed equipments. Now from below example we can see that how voltage
optimization contributes towards energy saving:
Resistive element of load: V =
I x R (Where V = Voltage, I = Current & R = Load)
With constant load, reduction
in voltage will correspondingly reduce current.
For example a 5% reduction in
the voltage at the motor will result a 5% reduction in current.
Now Suppose P1= V x I
After reducing the voltage
& current by 5% than P2 = 0.95V x 0.95I = 0.9025VI
So we can conclude that
reducing the input voltage by 5% will reduce consumed power by 10%.
This builds up a strong case to maintain optimum voltage at
demand side by using SERVO VOLTAGE STABILIZER.
Government has also recognized
this fact and is providing 80% depreciation on this product as a energy saving
equipment.