
REKUMAT® S NT
Thanks to patented gap-flow technology, REKUMAT® S NT burners achieve the highest energy efficiency with the lowest emissions even at low furnace chamber temperatures below 600 °C.
The REKUMAT® M series offers proven technology paired with state-of-the-art features such as FLOX® and fuel flexibility, in line with our mission to make all burner series "Green Gas Ready»
With the experience of tens of thousands of burners in use, the REKUMAT® M is a perfect burner for anyone looking for a long-tested, extremely robust and always reliable product with high efficiency and low emissions.
Input Rating
Between 20 and 350 kW
Fuel Gas
Natural gas (standard): natural gas H, natural gas L, methane
Other gases (optional): hydrogen, propane, butane and other dust-free, non-aggressive gases
Supply Pressures
Fuel gas: 6000Pa (60 mbar), ± 5%
Combustion air: 8000 Pa (80 mbar), ± 5%
Maximum Operating Temperature
Direct heating: 1150°C
Indirect heating: 1000°C
Flame Supervision
Flame rod or UV sensor
Combustion Mode
Flame or flame/FLOX®
Control Method
On/Off
Customized solutions are available upon request.
Thanks to patented gap-flow technology, REKUMAT® S NT burners achieve the highest energy efficiency with the lowest emissions even at low furnace chamber temperatures below 600 °C.
The patented REKUMAT® CR burners allow for the first time the substoichiometric operation of a recuperative burner due to the integrated afterburner. Highest efficiency and lowest NOx emissions thanks to FLOX® technology.
Energy-efficient recuperative burner for indirect and direct heating applications. Revolutionary gap-flow technology for highest possible efficiency.
Energy-efficient ceramic recuperative burner for indirect and direct heating applications. Revolutionary gap-flow technology for highest possible efficiency, even at very high operating temperatures.
Energy efficient, ceramic self-recuperative burner for radiant tubes and direct firing
Green hydrogen from bio gas with «FLOX® inside» is a key technology for successful ramp-up of the hydrogen economy.
FlexHeat2Anneal is a funded research project investigating the flexible use of hydrogen as a fuel for continuous process lines and galvanizing lines.
The expansion of the WS laboratory infrastructure enables advanced developments in the field of hydrogen utilization and ammonia splitting.