Combitude Boilers

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Combitude Boilers - Non FBC (CT Model)


      





Range 2 TPH to 8TPH
Pressure 150 PSI to 450 PSI
Type Water cum Smoke Tube Boiler; Membrane Water Wall Panel Lined Radiant Furnace with Shell & Tube Boiler
Options
  • Pneumatic Auto Firing
  • Dumping Grate for Bagasse firing
  • Traveling Grate for Higher Capacities
  • Additional OIL / GAS Firing
  • Steam Super Heating
  • Provision for FBC Conversion
  • Ideal for FUELS with higher VOLATILE CONTENT & Lighter Fuel e.g. Lignite, Rice Husk, Bagasse, Ground Nut Shell etc.
  • Very High THERMAL EFFICIENCY due to Efficient Combustion & Minimal Radiation Losses.
  • Higher Free Board Space & Large Combustion Volume
.
Salient Minimum Choking hence Lower Cleaning Frequency
Features
  • Large Water Holding & Steam Space
  • Better response to fluctuating Steam Load
  • Quicker Initial Steaming
  • Superior MEMBRANE TECHNOLOGY in Packaged & Large Boilers
  • Minimum usage of Refractory in Furnace hence Lower Maintenance & Minimum Air Leakages.
  • Easy in : * Operation * Maintenance * Cleaning


FBC (CTF Model)





Range 3 TPH to 16 TPH (Husk / GN Shell / Saw Dust) 5 TPH to 16 TPH (Coal/Lignite)
Pressure 150 PSI to 450 PSI
Type Water cum Smoke Tube Boiler; Membrane Water Wall Panel Lined Radiant - FBC Furnace with Shell & Tube Boiler
Options
  • Dual Furnace: Manual Firing cum FBC firing (CTD model) for special applications
  • Over - bed AND / OR Under - bed Fuel Feeding
  • Fuel Feeding Arrangement:
  • Vibratory Feeder / Screw Feeder / Rotary Feeder
  • Eddy Current Coupling / AC Drive / DC Drive
  • Steam Superheating
  • FBC without in-bed Tube / Coil for special applications
  • Multi Cyclone Dust Collector / Bag Filter
  • Air Pre - heater AND / OR Water Pre - heater
Salient Features
  • Very High THERMAL EFFICIENCY due to :
  • Low Combustion Air to Fuel Ratio
  • Higher Combustion Volume & Free Board resulting in Efficient Combustion
  • Minimal Radiation Losses due to Membrane Water Wall Panelled Radiant Furnace
  • Minimal Air Leakage in Furnace due to Membrane Panel
  • Higher Effective Heat Transfer Areas
  • Automatic Operation for consistent & uninterrupted steaming
  • Large Water Holding & Steam Space
  • Better response to fluctuating Steam Load
  • Superior MEMBRANE TECHNOLOGY in Fluidised Bed Combustion
  • Minimum usage of Refractory in Furnace hence Lower Maintenance & Minimum Leakages
Instrumentation & Controls for
  • SAFE Operation
  • EASY Operation
  • OPTIMAL PERFORMANCE