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HEATING MODULES

PREFABRICATED HEATING MODULES

Heating modules are intended for use in production or laboratory furnaces/heaters wherever concentrated heat is needed. They provide major energy savings in several applications and offer the flexibility of different temperatures and processes to take place in the same furnace.

Prefabricated heating modules consisting of vacuum-formed ceramic fibre with an integral Super molybdenum disilicide (MoSi2) heating element for up to 1750°C (3180°F) element temperature.

Heating modules play a central role in electrifying large-scale industrial heating processes as they are specifically designed for high-temperature applications. These modules consist of metallic heating elements encased in vacuum-formed ceramic fiber insulation that can withstand temperatures up to 1,350°C (2,460°F).  Heating modules are quick to install, and their modular setup makes them easy to tailor to specific customer needs. The lightweight design of Heating modules is pivotal in modernizing industrial furnaces and significantly reducing energy consumption.

KEY FEATURES

  • Lightweight design
  • Heating and insulation in one
  • High-temperature applications
  • High insulation properties
  • Customizable
  • Wide range of applications
  • Fast installation and replacement
  • Energy saving

Versatile heating module that is designed to be suitable for a wide range of thermal processing applications, with element temperatures reaching up to 1,350°C (2,460°F). The heating modules are constructed by encasing element coils in a high-quality non-electrically conductive ceramic material. To accommodate various applications, the resistance material is primarily made from A-1 and AF resistance alloys. A fiber-free version is also available for temperatures up to 1,250°C (2,280°F).

KEY FEATURES

  • Excellent temperature capability
  • Fully interchangeable modules
  • Superior element support
  • High thermal conductivity
  • Longevity
  • Easy to install and replace
  • High surface load
  • Excellent heat distribution and uniformity
  • Can be used in small furnaces or multiples in larger industrial furnaces or kilns
  • Highly customizable