Duct heaters are used to heat moving gas streams. They are installed in the middle of a moving air / gas stream in order to heat the air as it moves through the heater. A duct heater can also be used to radiantly heat an object at the end of a moving gas stream. The heater transfers heat to the gas, which transfers heat to the object at the end of the stream. This method of indirect heat transfer is useful for heating objects in locations where a traditional heater would not fit. Features common to duct heaters include cooling options, finned heating elements, integrated thermostats, adjustable thermostats, thermocouple wells, and explosion proof housings. Some products are rated for cryogenic use or feature a custom heater design. Others are corrosion resistant or are approved by Underwriters Laboratories (UL).
Important parameters to consider when specifying duct heaters are maximum operating or sheath temperature, AC voltage phase, AC voltage required watts and watt density. Maximum operating temperature is the maximum temperature that the sheath covering the heater may reach. The maximum sheath temperature does not represent the maximum temperature that a heated substance may reach. AC voltage phase can be either single-phase or three-phase. AC voltage required represents the minimum AC voltage required to operate the heater. Watts represents the maximum wattage available from the heater. Watt density is the amount of wattage, per square inch, that the duct heater is capable of delivering. Watt density is calculated by dividing the available wattage by the heated area. Watt density is a good measure of the duct heater's ability to quickly heat a substance. High watt density heaters should not be used with extremely viscous materials, materials that are not circulated well, or explosive/volatile materials due to risk of fire. Important dimensions for duct heaters include duct depth required for heater installation, heater height, and heater width. For duct heaters it is necessary to specify the number of heating elements the device contains.
Sheath, jacket or sleeve material refers to the protective outer covering for the heating element(s). Many duct heaters will have multiple options available for sheath material. The sheath material of a duct heater can be one of many types, including: aluminum, iron, stainless steel, and steel. Heater insulation helps prevent heat loss to the environment. Many heaters duct heaters have multiple insulation options. Insulation options for duct heaters include: no insulation, ceramic insulation, mica insulation, mineral insulation, and fiberglass insulation. Ceramics are made of nonmetallic minerals, such as clay, that have been permanently hardened by firing at a high temperature. Mica is known for its high resistance to heat and acids, as well as its electrical insulating properties.
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Heaters Air & Duct Heaters Radiant Heaters Comfort Heaters Strip Heaters Cartridge Heaters Tubular Heaters See OMEGA Engineering, Inc. Information |
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Circulation Heaters, Process Heaters, Screw Plug Heaters,... of tubular heaters and process assemblies including screw plug heaters, flange heaters, circulation heaters, duct heaters, drum heaters, immersion See Watlow Information |
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Tubular Heaters, Immersion Heaters, Flange Heaters, Screw Plug... Cast-in Heaters Ceramic Fiber Heaters Circulation & Process Heaters Coil & Cable Heaters Flexible Heaters Multicell Heaters See Watlow Information |
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