steam distribution system
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Steam Distribution System
By:- Shivam Kr. Gautam
CHEMICAL ENGG.2nd Yr.
1004351022Under Guidance:- Er. Ravi Kumar
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• Link between steam generator and point of use
• Steam generator Boiler Discharge from co-generation
plant • Boilers use Primary fuel Exhaust gases
What is the steam distribution system?
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Typical Steam Circuit
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• Steam pressure influenced by many factors
• Steam loses pressure in distribution pipe work
• Advantages of high pressure steam Increased thermal storage
capacity of boiler Smaller bore steam mains
required Less insulation of smaller bore
steam mains• Reduce steam pressure at point of
use
Pressure and Steam
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Most Important Components
1. Pipes2. Drain points3. Branch lines4. Strainers5. Filters6. Separators
7. Steam traps
8. Air vents
9. Condensate recovery system
10.Insulation
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1.Pipes
• Pipe material: carbon steel or copper• Correct pipeline sizing is important• Oversized pipe work:
– Higher material and installation costs
– Increased condensate formation• Undersized pipe work:
– Lower pressure at point of use– Risk of steam starvation– Risk of erosion, water hammer and
noise• Size calculation: pressure drop or
velocity
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2. Drain Points
• Ensures that condensate can reach steam trap
• Consideration must be give to– Design– Location– Distance between drain points– Condensate in steam main at
shutdown– Diameter of drain pipe
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2.Drain Points
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3.Branch Lines• Take steam away from steam main
• Shorter than steam mains
• Pressure drop no problem if branch line < 10 m
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4.Strainers
• Purpose– Stop scale, dirt and other solids– Protect equipment– Reduce downtime and
maintenance• Fitted upstream of steam trap,
flow meter, control valve• Two types: Y-type and basket
type
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4.Strainers
Y-Type strainers• Handles high
pressures• Lower dirt
holding capacity: more cleaning needed
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4.Strainers
Basket type strainers
• Less pressure drop
• Larger dirt holding capacity
• Only for horizontal pipelines
• Drain plug to remove condensate
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4.Strainers
Strainer screens• Perforated screens
– Holes punched in flat sheet
– Large holes– Removes large debris
• Mesh screens: – Fine wire into mesh
arrangement– Small holes– Removes small solids
Example of a 3-mesh Screen
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4.Strainers
• Other strainer options• Magnetic inserts: remove
iron/steel debris• Self cleaning strainers
– Mechanical: scraper or brush– Backwashing: reverse flow
direction• Temporary strainers: equipment
protection during start-ups
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5.Filters• Consists of sintered
stainless steel filter element• Remove smallest particles
– Direct steam injection – e.g. food industry
– Dirty stream may cause product rejection – e.g. paper machines
– Minimal particle emission required from steam humidifiers
– Reduction of steam water content
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5.Filters
• Choose correct size due to large pressure drop
• Do not exceed flow rate limits• For steam applications
– Fit separator upstream to remove condensate
– Fit Y-type strainer upstream to remove large particles
• Identify when cleaning needed– Pressure gauges– Pressure switch
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6.Separator• Separators remove suspended water
droplets from steam• Water in steam causes problems
– Water is barrier to heat transfer– Erosion of valve seals and fittings
and corrosion– Scaling of pipe work and heating
surfaces from impurities– Erratic operation and failure of
valves and flow meters• Three types of separators
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7.Steam Traps
• What is a steam trap?– “Purges” condensate out of the
steam system– Allows steam to reach
destination as dry as possible• Steam traps must handle
variations in– Quantity of condensate– Condensate temperature– Pressure (vacuum to > 100 bar)
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7.Steam Traps
Selection depends on steam trap’s ability to
• Vent air at start-up• Remove condensate but not
steam• Maximize plant performance:
dry steam
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7.Steam Traps
Three groups of steam traps
Thermostatic
1. Liquid expansion2. Balance pressure3. Bimetallic
Thermodynamic
1. Impulse2. Labyrinth3. Fixed orifice
Mechanical
1. Ball floating2. Inverted bucket
Steam Traps
Thermostatic
1. Liquid expansion2. Balance pressure3. Bimetallic
Thermodynamic
1. Impulse2. Labyrinth3. Fixed orifice
Mechanical
1. Ball floating2. Inverted bucket
Steam Traps
Operated by changes in fluid
temperature
Operated by changes in fluid
density
Operated by changes in fluid
dynamics
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7. Steam traps – considerations• Waterhammer
– Condensate picked up by moving steam
– Can damage steam trap– Continuous slope in flow direction
reduces this• Dirt
– Affects steam trap performance• Strainers
– Help remove dirt and cheaper than maintaining steam traps
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7. Steam traps – considerations• Steam locking
– Can occur in rotating machinery– Only float trap has ‘steam lock release’
valve• Diffusers
– Installed to end of the pipe– Reduces sound and ferocity of flash steam
discharge• Pipe sizing
– Correct pipe size - traps affected by resistance to flow
– Avoid pipe fittings close to trap – back pressure risk
• Air venting– Important for system warm up and
operation
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8. Air vents
Effect of air on heat transfer
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8. Air vents
• Air in the system– During start-up– Condensing steam draws air in pipes– In solution in the feedwater
• Signs of air– Gradual fall of output of steam-
heated equipment– Air bubbles in the condensate– Corrosion
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8. Air vents
• Automatic air vent on jacketed pan (vessel)
• Automatic air vent on end of main
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8. Air vent - location
• Within low lying steam trap opposite high level steam inlet
• Opposite low level steam inlet
• Opposite end of steam inlet
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9. Condensate recovery system• What is condensate
– Distilled water with heat content– Discharged from steam plant and
equipment through steam traps• Condensate recovery for
– Reuse in boiler feed tank, deaerator or as hot process water
– Heat recovery through heat exchanger
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9. Condensate recovery systemReasons for condensate recovery• Financial reasons• Water charges• Effluent restrictions• Maximizing boiler output
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10. Insulation
• Insulator: low thermal conductor that keeps heat confined within or outside a system
• Benefits– Reduced fuel consumption– Better process control– Corrosion prevention– Fire protection of equipment– Absorbing of vibration– Protects staff: hot surfaces, radiant
heat
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10. Insulation
Selection criteria• Operating temperature of the system• Type of fuel being fired• Material:
– Resistance to heat, weather, fire/flames
– Thermal conductivity, thermal diffusivity
– Ability to withstand various conditions,
– Permeability• Total cost: material purchase,
installing and maintenance
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Thank You!!
Questions?