Cooling of power transformer
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COOLING OF POWER TRANSFORMER
Presented By :
Prasanta kumar Malik
7th Sem. Electrical engg
Roll No:1021106017
Presented By :
Prasanta kumar Malik
7th Sem. Electrical engg
Roll No:1021106017
CONTENT
Introduction
Methods of Cooling
Applications
Conclusion
Introduction
Methods of Cooling
Applications
Conclusion
INTRODUCTION
Power transformers are key components for
electricity supply systems.
It convert energy at one voltage level to another
voltage level. During the process of energy
transfer ,losses occur in the winding of the
transformer. This losses appear as heat that may
burn the winding of the transformer.
So to make the transformer healthier cooling is
needed.
Power transformers are key components for
electricity supply systems.
It convert energy at one voltage level to another
voltage level. During the process of energy
transfer ,losses occur in the winding of the
transformer. This losses appear as heat that may
burn the winding of the transformer.
So to make the transformer healthier cooling is
needed.
METHODS OF COOLING
Cooling
Air type Oil type
Cooling
Air type Oil type
AIR TYPE COOLING
Air natural (AN) Cooling
Air blast cooling
Air natural (AN) Cooling
Air blast cooling
OIL IMMERSED TYPE
Oil natural (ON) cooling
Oil natural air forced (ONAF)cooling
Oil natural water forced (ONWF) Cooling
Oil forced air natural (OFAN) cooling
Oil forced air forced (OFAF) Cooling
Oil forced water forced (OFWF) Cooling
Oil natural (ON) cooling
Oil natural air forced (ONAF)cooling
Oil natural water forced (ONWF) Cooling
Oil forced air natural (OFAN) cooling
Oil forced air forced (OFAF) Cooling
Oil forced water forced (OFWF) Cooling
AIR NATURAL COOLING
The transformers having smaller output(5-10KVA)
are cooled by this method.In this method the external
surface is sufficent to dissipate the heat produce by
the losses.
Such transformers are cooled by the combination of
air convection currents within the enclose case and by
natural radiation from the case itself.
The transformers having smaller output(5-10KVA)
are cooled by this method.In this method the external
surface is sufficent to dissipate the heat produce by
the losses.
Such transformers are cooled by the combination of
air convection currents within the enclose case and by
natural radiation from the case itself.
Practical view of AN cooling
AIR BLAST COOLNG
This type of cooling is used in dry type
transformers.
In this method ,heat dissipation is improved
by a continuous blast of air forced through the
core and windigs.
The air blast is produced by means of external
fans and blowers.
This type of cooling is limited to transformers
of voltage rating not exceeding 25kv.
This type of cooling is used in dry type
transformers.
In this method ,heat dissipation is improved
by a continuous blast of air forced through the
core and windigs.
The air blast is produced by means of external
fans and blowers.
This type of cooling is limited to transformers
of voltage rating not exceeding 25kv.
DISADVANTAGES
In this process the increase in
insulation strength is not obtained due
to non-immersion in oil.
A regular maintenance is a must for
this kind of transformers.(i.e filter
maintenance)
In this process the increase in
insulation strength is not obtained due
to non-immersion in oil.
A regular maintenance is a must for
this kind of transformers.(i.e filter
maintenance)
OIL NATURAL (ON)COOLING
This is the most usual method of cooling.
Here the assembly of core and windings is
immersed in insulating oil contained in iron tank.
The heat produced in core and windings passed on
to oil by conduction.Oil in contact with heated
parts rises and its place is taken by cool oil from
the bottom.
The heated oil transfers its heat to the tank
surface which dissipates it to the surroundings
This is the most usual method of cooling.
Here the assembly of core and windings is
immersed in insulating oil contained in iron tank.
The heat produced in core and windings passed on
to oil by conduction.Oil in contact with heated
parts rises and its place is taken by cool oil from
the bottom.
The heated oil transfers its heat to the tank
surface which dissipates it to the surroundings
Practical view of ON cooling
OIL NATURAL AIR
FORCED(ONAF)COOLING
Here the assembly of core and windings is immersed
in insulating oil and cooling is improved by forced air
over the cooling surfaces
The air is forced over external surfaces such as the
case,tubes and radiators, usually by means of fans
mounted external to the transformer.
Medium to large capacity transformers are cooled by
this method.
FORCED(ONAF)COOLING
Here the assembly of core and windings is immersed
in insulating oil and cooling is improved by forced air
over the cooling surfaces
The air is forced over external surfaces such as the
case,tubes and radiators, usually by means of fans
mounted external to the transformer.
Medium to large capacity transformers are cooled by
this method.
Practical view of ONAF cooling
OIL NATURAL WATER
FORCED(ONWF)COOLING
In this type of cooling,the core and windings is
immersed in an insulating oil and cooling is
improved by circulation of water through copper
cooling coils mounted above the transformer core
but below oil surface.
The heated water is cooled in a spray pond or
cooling tower.
This method will be cheaper where a natural
water head is already available.
FORCED(ONWF)COOLING
In this type of cooling,the core and windings is
immersed in an insulating oil and cooling is
improved by circulation of water through copper
cooling coils mounted above the transformer core
but below oil surface.
The heated water is cooled in a spray pond or
cooling tower.
This method will be cheaper where a natural
water head is already available.
OIL FORCED AIR NATURAL
(OFAN)COOLING
In this method, oil is circulated through the
transformer with the help of pump and cooled in a
heat exchanger by natural circulation of air.
This method proves very useful where coolers have to
be well remove from the transformer.
This method is not very common.
(OFAN)COOLING
In this method, oil is circulated through the
transformer with the help of pump and cooled in a
heat exchanger by natural circulation of air.
This method proves very useful where coolers have to
be well remove from the transformer.
This method is not very common.
OIL FORCED AIR
FORCED(OFAF)COOLING
In this method,the oil is cooled in external heat
exchanger using air blast produced by fans.
At light load, say upto 50% of rated load,(when the
losses are small) natural circulation of air may be
sufficient to cool the transformer.
At higher loads,the pump and fans may be switch on
by temperature sensing elements.
This arrangement results in higher efficiency of the
system.
FORCED(OFAF)COOLING
In this method,the oil is cooled in external heat
exchanger using air blast produced by fans.
At light load, say upto 50% of rated load,(when the
losses are small) natural circulation of air may be
sufficient to cool the transformer.
At higher loads,the pump and fans may be switch on
by temperature sensing elements.
This arrangement results in higher efficiency of the
system.
OPERATION OF OFAF COOLING
Practical view of a OFAF cooling
of Transformer
of Transformer
OIL FORCED WATER
FORCED(OFWF)COOLING
In this method,the heat oil pumped out from the
main tank to the radiator where the oil is cooled by
the water passing through copper tubes.
The pressure of oil is kept higher than that of water
therefore,any leakage that occurs is from oil to water.
There is no condensation problem.
FORCED(OFWF)COOLING
In this method,the heat oil pumped out from the
main tank to the radiator where the oil is cooled by
the water passing through copper tubes.
The pressure of oil is kept higher than that of water
therefore,any leakage that occurs is from oil to water.
There is no condensation problem.
NITROGEN COOLING
Heat transfer analysis on a cryogenic cooling system
is performed for HTS transformers to be operated at
63–66 K.
HTS windings are immersed in a liquid nitrogen bath
where the liquid is cooled simply by colder copper
sheets vertically extended from the coldhead of a
cryocooler.
Liquid nitrogen in the gap between the windings and
the copper sheets develops a circulating flow by
buoyancy force in subcooled state close to the normal
freezing point.
Nitrogen functions as a heat transfer medium and an
electrical insulating fluid at the same time.
Heat transfer analysis on a cryogenic cooling system
is performed for HTS transformers to be operated at
63–66 K.
HTS windings are immersed in a liquid nitrogen bath
where the liquid is cooled simply by colder copper
sheets vertically extended from the coldhead of a
cryocooler.
Liquid nitrogen in the gap between the windings and
the copper sheets develops a circulating flow by
buoyancy force in subcooled state close to the normal
freezing point.
Nitrogen functions as a heat transfer medium and an
electrical insulating fluid at the same time.
CONTINUED…….
HTS windings in a main cryostat filled with subcooled
liquid nitrogen at around 65 K, and located an iron
core through room-temperature bore of the cryostat.
The subcooled liquid is continuously chilled by
two sets of cryocoolers in a secondary cryostat and
circulated through transfer lines to the main cryostat
by a pump.
HTS windings in a main cryostat filled with subcooled
liquid nitrogen at around 65 K, and located an iron
core through room-temperature bore of the cryostat.
The subcooled liquid is continuously chilled by
two sets of cryocoolers in a secondary cryostat and
circulated through transfer lines to the main cryostat
by a pump.
LN2 SUBCOOLING FOR CORE-AND-COIL ASSEMBLY:
ADVANTAGES
Faster Thermal Cycles
Lower Temperature Limits
Minimal Maintenance Costs
Smaller Equipment
Lower Electricity Usage
Faster Thermal Cycles
Lower Temperature Limits
Minimal Maintenance Costs
Smaller Equipment
Lower Electricity Usage
APPLICATION
Air natural (AN) cooling is used for smaller output
transformer having rating 5-10kva.
Air blast cooling is used for dry type transformer.
The voltage rating should not be exceed 25kv.
The oil forced air forced (OFAF) cooling is usually
used for power transformer of rating 30mva and
higher.
Continued..
Air natural (AN) cooling is used for smaller output
transformer having rating 5-10kva.
Air blast cooling is used for dry type transformer.
The voltage rating should not be exceed 25kv.
The oil forced air forced (OFAF) cooling is usually
used for power transformer of rating 30mva and
higher.
Continued..
CONTINUED…
Oil forced water forced (OFWF) cooling is used
for transformers designed for hydro-electric
power plant.
Cooling radiator system with natural cooling is
used for power transformers with a capacity of
10Mva
Oil forced water forced (OFWF) cooling is used
for transformers designed for hydro-electric
power plant.
Cooling radiator system with natural cooling is
used for power transformers with a capacity of
10Mva
CONCLUSION
Not only the transformer but also all electrical
equipment requires cooling system.
By providing cooling system the efficiency of the
transformer will increase.
In case of rotating electrical machine due to
rotating parts air natural cooling is provided. But
in case of transformer there no is rotating part, so
these types of cooling must required for
transformer.
Not only the transformer but also all electrical
equipment requires cooling system.
By providing cooling system the efficiency of the
transformer will increase.
In case of rotating electrical machine due to
rotating parts air natural cooling is provided. But
in case of transformer there no is rotating part, so
these types of cooling must required for
transformer.
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