Infra-Red Heating Systems

Infrared radiant heat energy has many of the properties same as that of electromagnetic wave energy. These waves travel in straight line and are absorbed or reflected by matter and can be focused or dispersed by lenses or prism. The Infrared waves will flood the area around it with radiant energy effecting quick rise in the temperature.


The absorption of radiant waves is an inherent property of any substance, which leads to the possibility of many different application, which are not open to other forms of heating. For instance infrared ray heating is best suited for 3 dimensional items as the absorption of radiation increases the temp. in a uniform fashion. Infrared rays are available in short wavelength, medium wavelength or long wavelength and its selection depends upon the property of jobs, temperature required and curing time. NSW designs infrared heating systems for process temperature up to 350°C.By offering low velocity airflow in simultaneous with the radiation heating system hot air can be re-circulated thereby efficiency can be increased. NSW’s Scientific design of ducts realizes the contra flow ovens.

IR-BULBS: Infrared heating bulbs are used as the heat source, much of its energy is light and is easily reflected. Economical version for the low temp. application upto 100°C. like paint curing of plastic bodies, etc.

IR-TUBES: Short infrared waves generated by IR Tubes are readily absorbed by most materials because majority of its energy is heat. Longer wave IR Tubes brings the product upto a given temperature as quickly and as evenly as possible.

Infrared Heating Systems | IR Heating Systems | IR HeaterInfrared Heating Systems | IR Heating Systems | IR Heater

IR – CERAMIC ELEMENTS: Infrared ceramic heating elements are used with, suitable reflectors. These medium wave heaters can be used for a temperature upto 200°C and its very little time to achieve the temp. economizes its utility. IR Ceramic heating elements   provide superior results in Finishing and Process heating industry.

CONTROLS: Temperature is controlled by PID control using Solid State Relay (SSR) / (SCR) and other highly advanced controlling     instruments can be incorporated such as programmable timer with memory backup, temperature recorder with simple or multipoint   recording capability, photoelectric sensor, limit switch, etc.



  1. Reduces Process Time.
  2. Reduces Initial Temperature Rise Time.
  3. Saves Electricity.
  4. Saves Floor Area.
  5. Enhances Production.
  6. Enhances Product Quality.
  7. Environmental Friendly.