Steam Traps & Condensate Systems
Steam trap types, selection, condensate management, drip legs, flash tanks, and condensate return systems.
- Identify the three main steam trap types and their operating principles
- Explain drip leg sizing and placement for condensate collection
- Describe condensate return systems and flash tank operation
- Identify boiler components including Hartford loop and blowdown
- Explain water treatment and corrosion prevention in steam systems
Leçon 1
Thermostatic, Float, Bucket & Disc Traps
Steam Trap Purpose
A steam trap is an automatic valve that removes condensate (water) and air from a steam system while preventing the loss of live steam. When steam transfers its heat energy, it condenses back to water. This condensate must be removed quickly - it reduces heat transfer efficiency and causes dangerous water hammer if it accumulates.
Thermostatic Traps
Thermostatic traps operate on the temperature difference between steam and condensate. The trap contains a temperature-sensitive element (bellows or bimetal) that opens when cooler condensate arrives and closes when hotter steam reaches the trap. They are excellent for air venting because air cools the element, keeping the trap open.
Mechanical Traps
Mechanical traps operate on the density difference between steam (gas) and condensate (liquid). The float trap uses a ball float that rises with condensate level, opening a valve to discharge water continuously. The inverted bucket trap uses a bucket that floats when steam enters (trapping it) and sinks when condensate fills it (releasing water). Float traps are ideal for high-capacity applications with continuous discharge.
Thermodynamic (Disc) Traps
Thermodynamic disc traps use the velocity difference between steam and condensate. Condensate flows slowly under the disc, lifting it open. When flash steam forms, it flows rapidly over the disc, creating a low-pressure area that snaps the disc closed. Disc traps are compact and simple but can be noisy and waste more steam.
Float Trap
Continuous discharge
Best for large condensate loads
Good air handling with thermostatic vent
More expensive, larger size
Inverted Bucket
Intermittent discharge
Rugged and reliable
Tolerates water hammer well
Must maintain water seal
Thermodynamic Disc
Intermittent discharge
Compact and inexpensive
Simple construction
Higher steam loss, noisy
Steam traps remove condensate and air while retaining live steam. Float traps provide continuous discharge for large loads. Inverted bucket traps are rugged and handle water hammer well. Thermostatic traps are excellent for air venting.