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Duct Heaters: Standard and Finned Tubular

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Duct Heaters: Standard and Finned Tubular

Duct Heaters: Standard & Finned Tubular Heavy wall Incoloy® tubular heating elements (field replaceable) provide protection against corrosive air environments and resistance to vibration when compared to open coil elements. Forced air duct heaters can be designed specifically for high pressure and/or hazardous locations. Turnkey systems including the duct heater, power and temperature control panel, and the temperature and over-temperature sensors can also be provided.
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Why Choose Tempco for Duct Heating Solutions?

At Tempco, we manufacture rugged, high-performance duct heaters engineered to meet the demands of industrial environments.

Whether you’re heating clean air in a manufacturing facility or handling high-volume process airflow, Tempco’s duct heaters deliver reliable, long-lasting performance. Our designs feature heavy-duty, field-replaceable Incoloy® tubular elements, durable housings, and a variety of mounting and control options — all built to withstand vibration, corrosion, and harsh conditions.

We offer both standard and custom models, supporting fast lead times and tailored specifications to meet your project requirements. From OEMs to maintenance teams, engineers across industries trust Tempco for efficient, safe, and dependable air heating solutions.

Typical Applications:

  • Air Drying/Curing Operations
  • Annealing
  • Autoclaves
  • Booster Air Heater
  • Breaking Resistor
  • Core Drying
  • Dehumidification
  • Forced Air Comfort Heating
  • Heat Treating
  • Make-Up Air Heating
  • Re-Heating
  • Resistor Load Banks

Design features

Standard Tubular Duct Heaters

  • NEMA 1 General Purpose Ventilated Enclosure
  • Painted Steel Mounting Flange
  • Single- and Three-Phase Wiring
  • 3-1/2″ (89 mm) Insulation
  • Field Replaceable Incoloy® 840 Elements
  • Element Bends Re-pressed
  • 1/4″ (6 mm) Inside Diameter Thermowell
  • Stainless Steel Support Plate and Corner Posts

Finned Tubular Duct Heaters

  • NEMA 1 General Purpose Ventilated Enclosure
  • Stainless Steel Mounting Flange and Terminal Box
  • Single- and Three-Phase Wiring
  • 1″ (25 mm) Insulation
  • Field Replaceable .430 Diameter Stainless Steel Elements
  • 9/32″ (7 mm) ID Sensor Thermowell
  • Stainless Steel Support Plate and Corner Posts
  • Stainless Steel Insulation Housing

A – Enclosures

NEMA 1 terminal box enclosure with vented cover to help keep wiring cooler. Optional enclosures: NEMA 4 (moisture resistant), NEMA 7 (explosion resistant)  and NEMA 12 (dust resistant).

B – Insulation

3-1/2 inches (89 mm) of mineral insulation in a stainless steel enclosure below the mounting flange, minimizes heat losses while keeping the electical wiring cooler.

C – Frame

The heavy duty frame is composed of a 1/4 inch (6 mm) thick steel mounting flange, stainless steel support plate and corner posts to securely hold the heating elements rigid in any mounting position.

D – Field Replaceable Elements

Standard field replaceable elements are held in place with single-screw quick-release “V” clamps. Pressure resistant designs utilizing welded elements,  bulkhead fittings, or compression fittings to attach elements to the flange are available to limit leakage of ducted air or gases into the terminal enclosure. Welded elements are used for gas tight applications.

E – Thermowell

A 9/32″ (7 mm) inside diameter thermowell accessed through a 1/8″ NPT tapped hole in the flange allows installation of an optional Type J or K thermocouple  for sensing temperature within the element bundle. It can be clamped directly to an element for use as a high limit providing a faster response. An excellent safeguard for your system.

F – Incoloy® Elements

The .430″ (11 mm) diameter elements are silicone resin sealed. High temperature tubular duct heaters utilize Incoloy®  sheath material for excellent high temperature scaling and corrosion resistance. The medium temperature finned duct heaters have stainless steel fins on a corrosion resistant stainless steel sheath. High temperature Incoloy®  elements have all bends repressed in special dies to recompact the MgO refractory to eliminate any electrical insulation voids and hot spots.

Sizing a Duct Heater

To properly match a duct heater to an application, the wattage, air velocity and element watt density must be determined.

Formulas and graphs that will aid in your design include:

  • Wattage calculation formulas and table
  • Element Watt Density vs. Sheath Temperature and Air Velocity Graph
  • Pressure Drop vs. Air Velocity Graph

In most applications the following design limitations should be adhered to:

  • Maximum watt density of 40 watts/in2  (6.2 watts/cm2 )
  • Maximum element sheath temperature of 1400°F (760°C)
  • Minimum air velocity of 200 feet per minute (61 meters per minute)
  • Maximum voltage for UL certified heaters is 480V.
  • Maximum voltage for CSA certified heaters is 600V.

Calculations

Minimum Wattage Requirement

This table is for quick-estimation purposes and is based on air under standard conditions (70°F inlet air temperature at 14.7 PSIA).

If flow is given in CFM at operating temperature and pressure it can be converted to SCFM (Standard Cubic Feet per Minute) with the following formula (use the equations to the right for compressed air):

SCFM = CFX ×
P
14.7
×
530
T + 460

P = operating pressure (gauge pressure + 14.7)
T = operating temperature

Note: Remember when calculating wattage to use the maximum anticipated air flow and to compensate for any heat losses.

For free air use equations:

KW =
(SCFM × Temperature Rise (°F))
3000
KW =
(SCMM × Temperature Rise (°C))
47

For compressed air use equations:

KW =
CFM* × Density* (lbs/cu. ft.) × Temperature Rise (°F)
228
*At heater inlet temperature and pressure
KW =
CMM* × Density* (kgs/cu. m) × Temperature Rise (°C)
57.5
*At heater inlet temperature and pressure