GAS APPLICATION
Reasons for oxygen enhanced combustion are:
- The nitrogen is eliminated from the combustion process
- Exhaust gas volume reduced by 75%
- Less heat loss through the exhaust system
- Less batch loss by the lower exhaust velocity, less dust emission
- Flue gas channel area can be reduced
- Higher flame temperature
- Better heat transfer by the 3 atom molecules taking place in the combustion
- Better heat distribution
- Higher pull rate and/or reduced fuel consumption
- Oxyfuel combustion
In case of rotary furnace for both, the frit production and the color pigment production, the challenge is
- to substitute the relatively large physical dimension of an air-fuel burner by an oxy-fuel burner, usually for giving the customers the possibility to switch back to air-fuel any time if they want, and/or
- to substitute a water-cooled, oxy-fuel burner with self cooled burner which complies with the previous requirement.
- define an optimum capacity of the burner
- design a burner with optimum flame length on the above working point
MESSER-SOLUTION
- Oxipyr Burners
- Oxipyr - F
- Oxipyr - P / P LON
- Oxipyr - Burner Regulation
- Oxipyr - Advanced regulation
- Oxipyr - Basic+, Basic regulation
- Oxipyr - 400 regulation
