Transcript
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BOILER ACCESSORIESPREPARED BY:RUDRIK JOSHI
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BOILER ACCESSORIES
• Boiler accessories are as follow :
• 1) Economiser• 2) Air preheater• 3) Superheater
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ECONOMISER
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WHAT IS ECONOMISER?
• Economiser is a device which increases temperature of feed water using heat of flue gases leaving boiler through chimney.• Flue gases are the combustion exhaust gases produced at power
plants consist of mostly nitrogen, carbon dioxide, water vapor, soot carbon monoxide etc.• It has been estimated that every 1% of fuel cost can be saved for
every 6 degree centigrade rise in temperature of boiler feed water.
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CONSTRUCTION AND WORKING OF ECONOMISER
• It consist of large number of vertical cast iron(steel water pipes).
• One end of vertical pipe connected with horizontal pipe at upper side & another end with lower side.
• The feed water enters into economiser through the bottom pipe.
• Then, it comes into top pipe through the vertical pipes.
• After that ,it comes into boiler for further working.
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CONSTRUCTION AND WORKING OF ECONOMISER
• The hot flue gases coming from boiler pass over the vertical tubes of economiser.
• The heat transfer takes place from flue gases to cold water rising in vertical tubes of economiser.
• The heated feed water is supplied to the boiler.
• TO PREVENT SOOT DEPOSIT ,the scrapers S move up & down by chain and gears to keep the external surface of the pipe clean.
• A BLOW OFF COCK VALVE is provided at back end of vertical pipes to remove sediments deposited in the bottom boxes .
• A SAFETY VALVE provided at the end of the pipe for the safety of the pipes.
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Economiser_HIGH.mp4
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TYPES OF ECONOMISER
1)Plain tube type economiser:• In this type of economizer tubes
are made from cast iron to resist corrosive action of flue gases.• In this economiser the waste
flue gases flow outside the economiser tubes and heat is transferred to the feed water flowing inside the tube.• High efficiency of economiser
can be maintained by preventing soot deposition.
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TYPES OF ECONOMISER
2)Gilled tube type economiser:• The gilled tube economiser made
up of cast iron which are fabricated using graded cast iron fins.• Efficiency is higher than plain type
economiser because in this type of economiser there is a reduction in size and higher heat transmission due to gills on bare tube wall.• Economiser also may have bare
and finned tubes.
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CORROSION OF ECONOMISER AND IT’S PREVENTION
• The corrosion and its prevention are very important for safe and efficient working of economiser.• Threre are two types of corrosion in economiser:• 1) Internal corrosion• 2) external corrosion
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INTERNAL CORROSION
• CO2 forms carbonic acid(H2SO3)when dissolve in water. It is unstable and it ionizes into HCO3- and H+ Ions and HCO3- further deform into CO3- and H+ ion.
• The H2SO3 is only one that exerting gas pressure and it must be removed at low PH level.
• NH3 forms ammonium hydroxide(NH4OH). It breaks into NH4+ and OH- Ions.• Therefore NH4OH is responsible for exerting gas pressure and it must be
removed at high PH value.• corrosion can be prevented by maintaining the pH value of water between 8 to 9
to reduce its acidic effect.
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EXTERNAL CORROSION
• External corrosion occur when if water vapour in flue gases condenses at tube surfaces. Reduced tube surface temp. and presence of SO2 in exhaust gases amplify corrosion rate. • Sulphurous acid is form when SO2 is dissolve in free moisture in the flue
gases, sulphur trioxide may combine with superheated water vapour to form H2SO4 at acid dew point.• Maintaining feedwater temp at levels optimizes the potential level for
low temp. Corrosion attack on economiser, even when high sulphur fuels are used in thermal power plant.
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ADVANTAGES AND DISADVANTAGES
ADVANTAGES• Higher feed water temperature tend to
reduce boiler thermal stresses, so life of boiler increased.
• Economisers utilized waste heat from flue gases, so fuel consumption of boiler reduces.
• Increased evaporate capacity of boiler.
DISADVANTAGES• Economisers placed at passage of
the flow of flue gases , so pressure drop take place of flue gases (loss of draught)
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AIR PREHEATER
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WHAT IS AIR PREHEATER?
• Air preheater is a device which increases the temperature of air before it supply to the furnace using heat from flue gases passing through chimney.• The heat carried with the flue gases coming out of economiser is further
utilised for preheating the air before supplying to the combustion chamber.• An increase of 20 degree centigrade in the air temp. increases the boiler
efficiency by 1%.• It is a necessary equipment to supply hot air for drying the coal in
pulverised fuel systems to facilitate grinding and satisfactory combustion of fuel in the furnace.
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BENEFITS OF PREHEATING
• The principal benefits of preheating are :1. Improved combustion2.Successful use of low grade fuel3. Increased thermal efficiency4.Saving in fuel consumption5. Increased steam generation capacity
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TYPES OF AIR PREHEATERS
• There are mainly two types of air preheaters:
1.Recuperative type2.Regenerative type
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TYPES OF AIR PREHEATERS
Recuperative type
• The recuperative heaters continuously transfer the heat from hot gases to cold air.
Regenerative type
• The regenerative heater alternately gets heated and cooled by the hot gases and cold air.
• Unlike recuperative type , the regenerative type is discontinuous in action and operates on cycle.
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RECUPERATIVE TYPE AIR PREHEATER
• The two recuperative types of heat exchangers which are commonly used for air-heating are described below:
1.Tubular air-heater2.Plate type air-heater
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TUBULAR AIR-HEATER
• Arrangement of tubular air-heater is shown in fig.
• The flue gases flow through the tubes and air is passed over the outer surface of the tubes as shown in fig.
• The horizontal baffles are provided as shown in fig.to increase time of contact which will help for higher heat transfer.
• The steel tubes 3 to 10m in height and 6to 8 cm in diameter are commonly used.
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TUBULAR AIR-HEATER
air preheater.mp4
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PLATE AIR-HEATER
• A plate type heater is shown in fig.• It consists of rectangular flat plates
spaced from 1.5 to 2.5cm apart leaving alternative air and gas passages.
• This types of air heater is not used in modern installations as it is more expansive both as to flat cost and maintenance cost compared with tubular air heaters.
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REGENERATIVE HEAT EXCHANGER
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REGENERATIVE HEAT EXCHANGER
• A typical type of stationary regenerative heat exchanger is shown in fig.• The transfer of heat from hot gases to cold air is divided into two stages. 1.heating period 2.cooling period • The heat of the hot gases flowing through the heat exchanger is transferred to the packing
of the heater and it is accumulated on the packing and the hot gases are cooled to sufficiently low temp. before exhaust to atm. This stages is known as “Heating Period ”.
• In second stage, the cold air is passed through the hot packing where the heat is accumulated and heat from the packing is transferred to the cold air. This stage is known as “Cooling period”.
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ACID CORROSION AND IT’S PREVENTION
• Combustion of sulphur in coal results in formation of SO2 and about 3to5% of the SO2 is oxidized to SO3 depending on O2 content, moisture and temp. of flue gas.• The SO2 and SO3 may then combine with moisture in the flue gas to form
sulphurous and sulphuric acids.• Sulphurous acid will not form above dew point temp. and is seldom a
problem.• Sulphur trioxide is hygroscopic and absorbs moisture at temp. well above
the dew point ,resulting in the formation of sulphuric acid mist.
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ACID CORROSION AND IT’S PREVENTION
• The temp. at which this acid mist condenses to form sulphuric acid is called acid dew point.• The condensed acid causes heavy corrosion of the metal surfaces.• High excess air promotes oxidation of SO2 to SO3 which raises acid dew point as well as
high moisture content also increases the acid dew point.• To avoid acid condensation and corrosion, air heater manufactures recommend minimum
cold end temperature and experience.• The manufacturers have recommended 155 to 160 F cold end temperatures for tubular air
heaters when burning coal containing 1% sulphur.• For coal containing 1 to 5% sulphur, recommended minimum cold end temperature lies
betwwen 180 to 185 F.
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ADVANTAGES AND DISADVANTAGES
ADVANTAGES• Preheated air increases combustion rate and
then increases steam generations of boiler.• Due to higher temp. of air , furnace temp.
increases, so low grade coal can be burnt efficiently.
• Air heated by heat of exhaust gases. It reduces fuel consumptions. Therefore thermal efficiency of boiler increased.
DISADVANTAGES• There are formation of clinkers, on the
grate due to higher combustion temp.• Natural draught is not possible with
air preheater because of temp. of flue gases is reduced, also pressure drop take place in the flow of the flue gases. therefore forced draught is required.
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SUPERHEATER
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INTRODUCTION• The function of Super heater in the thermal power plant is to
remove the last traces of moisture from the saturated steam coming out of boiler and to increase its temperature above saturation temperature as per requirement at inlet of steam turbine.• Superheating raises overall efficiency as well as avoids too
much condensation in last stages of turbine which avoids blade erosion.
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INTRODUCTION
• The heat of combustion gases from furnace is utilised for removal of moisture from steam and to superheat the steam.• Super-heaters usually have several tube circuits in parallel with one or more
return bends, connected between headers.• Heat from the hot gases to the vapour in the superheater is transferred at
high temperatures.• Therefore primary section of superheater is arranged in counterflow and
secondary section in parallel flow to reduce the temp. stressing of the tube wall.
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PRINCIPLE OF SUPERHEATER
• Principle of superheater is similar to steam generating tubes of boiler.• The hot gases at high temperature sweep over superheater
tubes and raise the temperature of steam which magnitude depends upon exit gas temperature leaving the superheater and gas velocity.
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WORKING OF SUPERHEATER(ANIMATION EXPLAIN).mp4
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CLASSIFICATION OF SUPERHEATERS
• Based on the mode of heat transfer:
1) Convective Superheater
2)Radiant Superheater
3)Pendant Superheater (Combined Superheater)
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CLASSIFICATION OF SUPERHEATERS
• Based on their position in the furnace w.r.t. water tubes.
1) Overdeck Superheater
2) Innerdeck Superheater
3) Inner tube Superheater
4) Inner bank Superheater
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CONVECTIVE SUPERHEATER
• They are located in the convective zone of the furnace. They absorbs heat from the flue gases through convection.
• The convective superheater gives rising characteristics i.e. the temperature of superheater increases with the increase in steam output.
• Because with the increase the steam output both gas flow over superheater tubes and steam flow inside the tubes increase which causes increase in heat transfer rate and mean temperature difference.
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CONVECTIVE SUPERHEATER
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RADIENT SUPERHEATER
• They are located in the furnace between the furnace walls. It absorbs heat from burning fuel through radiation.
• It has two main disadvantages:1) It may get overheated due to high temperature of furnace.2) It has a dropping characteristics i .e. the temperature of superheat falls with the increase
in steam output.
Because with the increase in steam output the furnace temperature rises at a much less rate than the steam output.
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RADIENT SUPERHEATER
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PENDANT SUPERHEATER
• In this Superheater both Convective and Radiant Superheaters are arranged in series in the path of the flue gases.
• Radiant superheater receives heat from the flue gases by radiation and convective superheater receives heat by convection.
• About 3/4th of convective surface is made counter flow while the remaining l/4th is parallel flow. If the entire coils are counter flow then exit end of the superheater will be subjected maximum temperature difference.
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INNERDECK SUPERHEATER
• In case of the Innerdeck Superheater, Superheater is placed between the evaporator water tubes.
• Here, the heat is carried by the convection. But it also receives some heat by radiation.
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OVERDECK SUPERHEATER
• In the Overdeck Superheater, Superheater is placed above the evaporator tubes.
• In this type the heat is received by the convection.
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INNER TUBE SUPERHEATER
• The Inner tube Superheaters are placed between the two evaporator tubes.
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INNER BANK SUPERHEATER
• In the Inner bank superheaters, the bank of superheater tubes is placed between the evaporator tubes.
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METHOD FOR CONTROLLING SUPERHEAT TEMPERATURE
1. Bypassing the furnace gas around the superheater2. Tilting burners in furnace3. Auxiliary burners4. Desuperheater using water supply5. Pre condensing using water sprey6. Gas recirulation7. Twin furnace arrangement8. Coil immersion in the boiler drum
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REHEATERS
• The function of the Reheater is to resuperheat the partly expanded steam from the turbine.• This is done so that the steam remains dry as far as possible through the
last stage of the turbine.• The reheater is generally located before or after the convective superheater
in the convective one of utility boilers.• In modern high pressure boilers the reheaters are in two sections. A primary
section is placed in the convective zone and the secondary section is placed just at the furnace exit hanging from the top.
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