Why Heating Systems with Tube is an Efficient Choice

Why Heating Systems with Tube is an Efficient Choice

In general, tube heaters may be useful in practically anyplace with a ceiling height of more than four meters. But the majority of places to find them are manufacturing facilities, warehouses, and workshops in the logistical, industrial, and sports sectors.

Because tubular electric heater utilize infrared radiation rather than moving air to deliver heat, they are installed below the ceiling and provide a comfortable environment in rooms. Tube heaters are capable of heating individual zones as well as the entire space and are convincing due to their quick heat-up times.

How do operate heaters with tubes?

The working concept of infrared radiators, or tube heaters, is similar to that of the sun. When the sun’s infrared or heat radiation strikes a surface, it transforms into heat. on our skin as well. A “carrier medium” is not required for the infrared photons to transfer their energy.

Similar to how the sun’s infrared rays must travel over 150 million kilometers to reach Earth, the infrared rays from a tube heater nearly always reach the inhabited areas of workers, machinery, and stored items from the equipment located under the building’s ceiling.

Infrared tubular heater

Why do tube heaters and infrared radiant heaters provide healthy heating?

First and foremost, the fact that tube heaters don’t need to circulate air to heat a space contributes to its cozy atmosphere. For allergy patients in particular, this means that there are no uncomfortable draughts or dust swirls, and incidentally, viruses and bacteria are not blown around needlessly.

The air temperature in the hall that require heating can typically be three degrees Celsius lower since tube heaters heat surfaces and people first and the air only second. Despite the decreased air temperature, people find it comfortable because of the infrared heat.

Why do tube heaters have such high efficiency?

Tube heaters can result in up to 50% energy cost savings when compared to traditional heating systems. Several variables affect how much you save them. A significant part is played by both the application itself and the building structure. This is applicable:

With infrared tubular heater, energy savings rise.

  • Buildings at higher elevations tend to have less insulated interiors and higher air exchange rates (due to factors like continuously open gates during loading and unloading operations, extraction at machinery, etc.).
  • The lower the average external temperature, the more flexible the heating system must be to adapt to changing shift hours. Or if just specific zones or portions of the building are heating.

The majority of hot days occur in what are common as transitional periods. Nonetheless, the heating system’s output is optimizing for peak periods or chilly days. Since tube heaters are not modulable, they almost always operate at maximum capacity.

Using high-reflectivity, insulated, and fully closed reflectors can result in further savings. By insulating the reflectors, heat leakage to the top is avoidable. As a result, the radiation tubes heat up and release additional heat into the atmosphere as infrared radiation.

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