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Strip Heater

Introduction to Strip Heaters

Application of Strip Heaters

OMEGALUX™ strip heaters are used principally for convection-type air heating and clamp-on installations. When selecting strip heaters for either, two important factors must be considered:
  1. The proper sheath material for resisting any rusting and oxidizing inherent in the process or environment and for withstanding the sheath temperature required. Standard sheath materials are rust resisting iron, chrome steel and Incoloy (NS Series only). Stainless steel and Monel sheaths are available at an additional charge. Maximum work and sheath temperatures are below.
  2. The watt density of the element, or watts per square inch of heated area. This should be low for heating asphalt, molasses and other thick substances with low heat transferability; it can be higher for heating air, metals and other heat conducting materials. (See curves for determining allowable watt densities).
Channel Strip Heater, Ceramic Insulated

Choose the right Strip Heater

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Selecting Sizes and Ratings


The calculation of total heat requirements for an application is outlined in the Technical Section. For assistance, get in touch with an OMEGALUX applications engineer who will be glad to help solve your heating problem. Once total heat requirements are established, the quantity, size and ratings can be decided. Plan for enough heaters to permit even temperature as required by the process. The sensor for the temperature control should be clamped to the working surface for accurate control. In the case of air heating, place sensor where the desired temperature is needed, but not too far from heater to help avoid undershoot and overshoot.

After the specific heater size and rating has been tentatively selected, the watt density must be checked against the appropriate curves. For example, the OT-4315 chrome steel sheath heater rated 1500 watts has a watt density of 11 watts/sq. in. and can be operated at 1200°F sheath temperature. If clamped to a work surface operating at 600°F, Figure C-1 shows that the maximum allowable watt density is 12 watts/sq. in. Since the watt density of the OT-4315 is below the maximum allowed, good clamping will provide long service. If the heater selected has a watt density higher than that stipulated by the graph, then these alternatives could be considered:

  1. Use more heaters of a low watt density to obtain the required kW capacity.
  2. Reduce the kW capacity needed by reducing heat losses and allowing for a longer heat-up time.

Choose the strip heater

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Ceramic Finned Strip Heater Ceramic Finned Strip Heater
Finned strip heaters are extremely efficient and dependable as a heat source for hundreds of industrial and commercial applications. They are used for both forced and natural convection air heating.
Channel Strip Heater, Ceramic Insulated Channel Strip Heater
Channel Strip Heaters have proven to be extremely efficient and dependable as a heat source for surface heating in hundreds of industrial and commercial applications. The rectangular tube gives full surface contact when used in a milled slot to provide maximum heat transfer area.
Mica Insulated Strip Heater Mica Insulated Strip Heater
An economical, practical and reliable heat source capable of providing uniform heat transfer to flat surfaces. Mica insulated strip heaters are used in hundreds of industrial and commercial heating applications.

Learn more about Strip Heater

Heater Selection Nomographs figure 1

Selection of Strip Heaters for Air Heating

1. Select maximum desired operating air temperature on (D)
2. Choose either chrome steel sheath or rust-resisting iron sheath (points E) on basis of operating conditions
3. Draw straight line through points (D) and (E) to reading on (F) giving maximum allowable watts per square inch
4. Select desired length heater with equivalent watt density or less
Heater Selection Nomographs figure 2

Selection of Strip Heaters for Clamp-On Applications

1. Select maximum desired work temperature on (A)
2. Choose either chrome steel sheath or rust-resisting iron sheath (points B) on basis of operating conditions
3. Draw straight line through points (A) and (B) to reading on (C) giving maximum allowable watts per square inch
4. Select desired length heater with equivalent watt density or less
Heater Selection Nomographs figure 2

Selection of Watt Density for Finned Strips

1. Select a maximum desired air temperature on A
2. Choose sheath material to suit operating conditions
3. Select minimum anticipated air velocity on B. Note: Natural circulation is equal to one foot per second
4. Draw straight line through the points selected on A and B - read C for allowable watt density
5. Select required length heater with equivalent watt density or less
When high operating temperatures are needed, watt density must be limited in order not to exceed the maximum sheath temperature. Watt density is given in the "How To Order" table for each strip heater.

In general, a viscous material with low thermal conductivity requires a low watt density. High watt densities can be used with thinner liquids and with materials of high thermal conductivity. Premature loss of the element due to excessive temperature may result if the material's heat-take-away ability is low. Also, the material may be charred, carbonized or its chemical makeup altered by overheating.
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