Technological alternative, more suitable, efficient and cost-effective for the indirect heating in industrial processes.

  • Working temperature up to 350 °C at very low pressure.
  • Specially designed for high transfer speed and a get great power of heat exchange.
  • Achieves high temperatures at pressure of recirculation.
  • Suitable for the latest technology of synthetic thermal fluids, mineral and food grade.
  • The selection of the model of the heater depends on many factors of the process to implement and system that will work. We can advise you fully in the design or modernization of their installation.

Advantages of systems of fluid thermal vs. Steam.

  • They can be high temperature (350 ° C – 662 ° F) at very low pressure steam systems that require high pressures of work unlike.
  • Boiler operator certificate is not required.
  • Saving fuel (up to 20%). Savings in the maintenance of pipelines.
  • Does not consume water caused by condensation losses.
  • Recovery steam traps are not required.
  • The transfer fluid does not need treatments such as water.
  • It is not corrosive like steam.
  • May be controlled several consumptions at the same time with different temperatures each.
  • No risk of freezing.

  • Monotubular vertical design of excellent performance.
  • Quick entry into the regime.  Equipment with multiple securities.  Suitable for every type of industry.
  • High efficiency modulating burner.
  • Natural gas, LPG or diesel burner.
  • Electronic temperature PID control.
  • Easy process and accuracy control.
  • Control of operational temperature +/- 1 °C.
  • Vertical construction which occupies less floor area.
  • Also you can find it is near the consumptions (punts, reactors, furnaces, etc.), reducing considerably the laying of pipes and, therefore reduces losses of heat on the way.
  • Automatic operation without supervision.
  • Very low maintenance costs.

Thermofluid® heaters are used in a wide variety of industrial processes namely:

  • Adhesives.
  • Asphalts.
  • Autoclave.
  • Bio-diesel.
  • Chemical reactors.
  • Distillation.
  • Food processing (frying, baking, etc.).
  • Hot water generation.
  • Inks.
  • Laundry services.
  • Surfaces and finishing treatments.
  • Heating in vessels and on board services.
  • Metal finishing.
  • Mining.
  • Ovens.
  • Manufacture of paint and varnish.
  • Machinery for paper and corrugated board industry.
  • Plastics.
  • Printing.
  • Rubber and rubber compounds.
  • Textile machinery.
  • Uranium processing.
  • Waste recycling.
  • Dryers.
  • All process requiring heat.

Otras Características

Tabla de Especificaciones
Thermofluid®
Heaters
Models
Neat Heat Capacity 1000 kcal/h Oil Capacity lts Gas Oil Consumption lts/ h Natural Gas Consumption m3/ h Gas Oil Supply Ø mm Natural Gas Supply Ø mm
TF-70 70 11 8 8 13 25
TF-200 200 30 23 24 13 32
TF-400 400 71 47 50 13 38
TF-600 600 117 70 72 19 50
TF-1000 1000 286 115 119 19 63
TF-1500 1500 465 170 182 25 63
TF-2000 2000 630 230 246 25 76
TF-2500 2500 1102 285 307 25 76
TF-3000 3000 1390 340 390 25 76
Overal Dimensions
Thermofluid® Heaters Models Net Heat Capacity 1000 kcal/h A mm. ØB mm. C mm. D mm. Weight kg.
TF-70 70 1120 465 600 250 x 100 220
TF-200 200 1550 645 980 300 x 200 375
TF-400 400 1940 890 1310 350 x 250 800
TF-600 600 1960 1066 1490 400 x 300 1200
TF-1000 1000 2490 1250 1725 450 x 350 2000
TF-1500 1500 3300 1450 1980 550 x 450 2660
TF-2000 2000 3300 1790 2390 600 x 500 3800
TF-2500 2500 3290 2280 3370 600 x 500 4800
TF-3000 3000 3290 2740 3850 700 x 550 6000