Resources, Tools and Basic Information for Engineering and Design of Technical Applications!
mobile - visible on handheld devices - alternatively go to www.engineeringtoolbox.com!
Engineering ToolBox > Steam Trap Selection Guide
There are three primary categories of steam traps:
- mechanical
- thermostatic
- thermodynamic
Popular traps in these categories includes the inverted bucket steam trap, the float steam trap, the thermostatic steam trap and the thermodynamic disc steam trap.Which one is preferred depends on the application.
A steam trap prime missions is to remove condensate and air preventing escape of live steam from the distribution system. The steam trap must adapt to the application. A disc thermodynamic steam trap should never be used together with a modulating heat exchanger - and a floating ball steam trap is overkill for draining steam pipes.
The table below can be used as a short guide for the selection of steam traps:
| Type of Steam Trap | Operation | Normal Failure Mode | |||
| No or little load | Light Load | Normal Load | Heavy Load | ||
| Float & Thermostatic | No Action | Usually continuous. May cycle. | Usually continuous. May cycle. | Continuous | Closed |
| Inverted Bucket | Small Dribble | May dribble | Intermittent | Continuous | Variable |
| Bimetal Thermostatic | No Action | Usually Dribble Action | May blast at high pressures | Continuous | Open |
| Impulse | Small Dribble | Usually continuous with blast at high loads | Usually continuous with blast at high loads | Continuous | Open |
| Thermodynamic Disc | No Action | Intermittent | Intermittent | Continuous | Open |
The inverted bucket is the most reliable steam trap operating principle known. The heart of its simple design is a unique leverage system that multiplies the force provided by the bucket to open the valve against pressure. Since the bucket is open at the bottom, it resists damage from water hammers, and wearing points are heavily reinforced for long life.
There are two basic designs for the thermostatic steam trap, a bimetallic and a balanced pressure design. Both designs use the difference in temperature between live steam and condensate or air to control the release of condensate and air from the steam line.
In an thermostatic bimetallic trap it is common that an oil filled element expands when heated to close a valve against a seat. It may be possible to adjust the discharge temperature of the trap - often between 60oC and 100oC.
This makes the thermostatic trap suited to get rid of large quantities of air and cold condensate at the start-up condition. On the other hand the thermostatic trap will have problems to adapt to the variations common in modulating heat exchangers.
In the float steam trap a valve is connected to a float in such a way that a valve opens when the float rises.
The float steam trap adapts very well to varying conditions as is the best choice for modulating heat exchangers, but the float steam trap is relatively expensive and not very robust against water hammers.
The thermodynamic trap is an robust steam trap with simple operation. The trap operates by means of the dynamic effect of flash steam as it passes through the trap.