Technical data
| Wavelength: | 1,7 µm |
| Max. radiator temperature: | 1.450 °C |
| Max. thermal surface load: | 1.000 kW/m² |
Short wavelength with a big impact
In collaboration with the University of Erlangen, GoGaS has developed a completely new concept for gas IR emitters. The combustion of the gas no longer takes place on the emitter surface, as is the case with conventional systems, but in the core of the emitter's porous structure. By using the new combustion principle, it has been possible to build an emitter with an extremely high power density. In principle, particularly flat products are suitable for drying processes with gas infrared emitters.
Quickly available and powerful
The system is ready for operation within just a few minutes. This eliminates the long heat-up phase required by many convective systems. In addition, when using gas infrared porous radiators, such a high heat transfer is often achieved that the drying distance can be significantly shorter than with circulating air dryers, or a higher drying capacity can be achieved with the same drying length.
Your advantages with porous radiators at a glance
- Short heating and cooling times
- low operating costs
- high efficiency
- Extremely high modulation
- very clean combustion
- thermal shock resistant
- easy maintenance
Sustainability by reducing pollutant levels
A key point in the assessment of combustion processes is, of course, the emission of pollutants. For this reason, surface emitters and porous emitters were measured in comparison. Conclusion: the porous radiator performs significantly better in all measured values!
