Working principle and features
Combustion gas (coal gas, natural gas, ethyne, liquefied gas, etc.) is mixed with air to some percentage. On the base of turbulent flow status and adjustable impulse frequency, mixed gas detonation would generate powerful wave airflow, together with shock wave and thermal radiation. Shock wave soot blower uses the kinetic energy, sound energy and thermal energy to clean boiler.
For different boilers, soot fouling is different. According to different situation, the ratio of combustion gas and air varies. Therefore, generated pressure would be different. But it is limited within safety range, instant energy at the nozzle is about 0.6MPa.
Advantages of shock wave soot blower
1. A multi-site cleaning solution
2. Unblock clogged up silos, hoppers & bins
3. Reduce health & safety risks
4. Rapid reliable equipment
5. Low to no maintenance
6. Fully automated
7. Prevent ash build-up on boiler tubes
8. Eliminate tube corrosion and erosion
9. 36
Combustion gas (coal gas, natural gas, ethyne, liquefied gas, etc.) is mixed with air to some percentage. On the base of turbulent flow status and adjustable impulse frequency, mixed gas detonation would generate powerful wave airflow, together with shock wave and thermal radiation. Shock wave soot blower uses the kinetic energy, sound energy and thermal energy to clean boiler.
For different boilers, soot fouling is different. According to different situation, the ratio of combustion gas and air varies. Therefore, generated pressure would be different. But it is limited within safety range, instant energy at the nozzle is about 0.6MPa.
Advantages of shock wave soot blower
1. A multi-site cleaning solution
2. Unblock clogged up silos, hoppers & bins
3. Reduce health & safety risks
4. Rapid reliable equipment
5. Low to no maintenance
6. Fully automated
7. Prevent ash build-up on boiler tubes
8. Eliminate tube corrosion and erosion
9. 36
Certificate
- ISO
- CE
Main Products
sootblower, soot blower, shock wave soot blower, shock wave sootblower