128679190 c i in Supercritical Boilers Ppt
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Transcript of 128679190 c i in Supercritical Boilers Ppt
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CONTROL AND
INSTRUMENTATION IN
SUPER CRITICAL BOILERS
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Types of boilers
Drum type
Once-through type
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THE CONCEPT
The mass flow rate thru’ all heat transfer circuits from Eco. inlet to SH outlet is kept same except at low loads wherein recirculation is resorted to protect the water wall system
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Once-thru BoilerMajor differences from Drum type boiler :
• Evaporator system• Low load circulation system• Separator
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Once -thru Boiler
Evaporator system :• Formed by a number of parallel tubes• Tubes spirally wound around the furnace to
reduce number of tubes and to increase the mass flow rate thru’ the tubes
• Small tube diameter• Arrangement ensures high mass velocity
thru the tubes
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Once -thru Boiler
Low load circulation system :
At part loads once -thru flow not adequate to cool the tubes
To maintain required mass velocities boiler operates on circulating mode at low loads
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Once -thru BoilerLow load circulation system :
The excess flow over the once-thru flow separated in separator and– Returned to the condenser or de-aerator
thru’ a heat exchanger or
– Recirculated back to the boiler directly by a dedicated circulating pump
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Once -thru Boiler
Separator :Separates steam and water during the
circulating mode operationRuns dry during once-thru flow mode Smaller in size compared to drum in a
drum type boiler
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Once -thru BoilerAdvantages:• Better suited for sliding pressure operation• Steam temperature can be maintained over
wider load range under sliding pressure• Quick response to load changes• Shorter start up time• Higher tolerance to varying coal quality• Suitable for sub critical & super critical
pressures
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Once -thru BoilerRequirements :
Stringent water quality
Sophisticated control system Low load circulation system Special design to support the spiral furnace wall weight High pressure drop in pressure parts Higher design pressure for components from feed pump to
separator
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Effect on Boiler Components• Evaporator (Furnace) walls
• Super-heaters
• Thick walled boiler components
• Steam piping
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Effect on Boiler Components• Higher pressure & temperature lead to
increased thickness of :– Shells of separator, start-up system
components, SHO header..– Main steam piping.
• Higher thickness results in larger temperature gradients across walls
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Feedwater ControlNatural circulation boiler Once-through boiler
Feedwatercontrol
Level
Feedwater
Steam flowm•
EvaEco
T
TEnthalpy
Feedwatercontrol
Feedwater
TP
Eco
Eva
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THANK YOU