Modern High Pressure Boilers
A
boiler which generates steam at a pressure of 85 kgf/sq.cm or above is termed
as a “high pressure boiler”. The present tendency is towards the use of high
pressure boilers in power plants. The modern high pressure boilers used for
power generation have capacities of 40 to 1600 tonnes/hr of superheated steam
with a pressure upto 210 kgf/sq.cm and a
temperature of about 650’C. One of the largest modern steam power plants in the
world is in japan with a steam capacity of 1600 Tonnes/hr. In India, the trombay power plant has a steam generating capacity of
550 tonnes/hr, Ramagundam Power power plant with 320 tonnes/hr andbokaro plant
with 160 tonnes/hr.
Water
tube boilers are generally preferred for high pressure and high output whereas
fire tube boilers for low pressure and low output.
Advantages of high pressure boilers:
Method of water circulation
Water circulation through
the boiler may be either natural circulation due to density difference or by
forced circulation. In high pressure boilers, water circulation is made with
the help of a centrifugal pump which forces water through the boiler tubes.
This is called “forced circulation of water”. The use of natural circulation is
limited upto 120kgf/sq.cm.
Steam pressure and forced circulation upto 210 kgf/sq.cm. Forced circulation increases the rate of heat
transfer and hence increases the steam generating capacity of boilers.
Size of drums
The high pressure boilers
are characterized by the use of very small steam separating drums or by the
complete absence of any drum.
Type and arrangement of tubes
The heat of combustion is
utilized more efficiently by the use of small diameter and light weight tubes
in large numbers. To avoid large resistance to the flow of water , the high pressure boilers have a parallel set
of arrangement of tubes.
Compactness
The boiler components can
be arranged horizontally, giving greater accessibility and operational
convenience as high head required for natural circulation is eliminated by
using forced circulation. The space required is hence less and arrangement is
compact.
Foundation cost
Due to the light weight
tubes and small size drums required and the arrangement being compact, the cost
of foundation is reduced.
Efficiency
The efficiency of the
power plant is increased upto 40%, by using
high pressure superheated steam. Also steam can be raised quickly after the
boiler is fired.
Cost of electricity
Since efficiency of the
plant is increased by using high pressure boilers, the cost of electricity
production is reduced.
Overheating
All the parts are
uniformly heated; therefore the danger of overheating is reduced. Also thermal
stress probelm is avoided.
Scale formation
The tendency of scale
formation is eliminated due to the high velocity of water through the boiler
tubes.
Types of high pressure boilers
1. La-Mont Boiler
2. Loeffler Boiler
3. Benson Boiler