SAFETY
The Clayton Steam Generator is the safest steam boiler on the market.
There is no danger of explosion or risks associated with its operation.
The Clayton Steam Generator is the safest steam boiler on the market. There is no danger of explosion or risks associated with its operation.
The safety risks of a conventional steam boiler
As you can see in the video, overheating caused by low water level is the most frequent cause of boiler explosions, or other damage. The consequences of a malfunction, for human life and businesses, can be truly devastating.
Why the Clayton Steam Generator is the safest option
Witness the devastating consequences as a 500 boiler horsepower steam generator is tested to its absolute limits.
Before carrying out the demonstration, the team removed all safety devices from the unit.
The Clayton Steam Generator is trusted by organisations across the world as the safest on the market because:
- There is no water level and relatively little water contained within the coil
- Even if the coil is damaged in any way there is no danger of explosion
- It can be switched off at the end of the day for additional peace of mind
When you opt for an automated Clayton Steam Generator, there is no need for an operator to oversee control and safety of operations. Automatic alerts are triggered if manual intervention is required.
Why the Clayton Steam Generator is the safest option
Witness the devastating consequences as a 500 boiler horsepower steam generator is tested to its absolute limits.
Before carrying out the demonstration, the team removed all safety devices from the unit.
The Clayton Steam Generator is trusted by organisations across the world as the safest on the market because:
- There is no water level and relatively little water contained within the coil
- Even if the coil is damaged in any way there is no danger of explosion
- It can be switched off at the end of the day for additional peace of mind
When you opt for an automated Clayton Steam Generator, there is no need for an operator to oversee control and safety of operations. Automatic alerts are triggered if manual intervention is required.
Distinct operational differences
A Clayton Steam Generator operates very differently to the traditional firetube or shell boiler.
The firetube uses natural convection for heat transfer. To operate it must store a large amount of energy in the form of high-pressure hot water. This is stored in a cylindrical vessel and heated to form steam.
The Clayton Steam Generator uses forced circulation of water though a helical coil which is heated to produce steam. There is no requirement for hot water to be stored in the system, and therefore no risk of blow out.
Distinct operational differences
A Clayton Steam Generator operates very differently to the traditional firetube or shell boiler.
The firetube uses natural convection for heat transfer. To operate it must store a large amount of energy in the form of high-pressure hot water. This is stored in a cylindrical vessel and heated to form steam.
The Clayton Steam Generator uses forced circulation of water though a helical coil which is heated to produce steam. There is no requirement for hot water to be stored in the system, and therefore no risk of blow out.
Ask us about our safety record
Would you like to learn more about the safety credentials of a Clayton Steam Generator?
