172-65454MA-03 (JH7RL-X) 20 Oct 2020
5
Operation
Principles of air and condensate discharge:
1. Start-up Air and Cold Condensate
Discharge
At start-up, before steam is supplied, the trap is
cold so the X-element is contracted and the air
vent valve seat (A) is open. This allows for the
rapid discharge of air through the air vent valve
(A) and cold condensate through the orifice (B),
when steam is first supplied to the system.
2. Condensate Discharge
After the discharge of initial air and cold
condensate, the heat of the inflowing steam and
condensate causes the X-element to expand,
closing the air vent valve (A). The rising
condensate level causes the float to rise due to
buoyancy, opening the orifice (B) and allowing
condensate to be discharged.
3. Hot Air Discharge
Should hot air flow into the trap during normal
operation, the temperature of the X-element
drops, causing it to momentarily contract and
open the air vent valve (A), which allows for the
rapid discharge of the air. After the air is
discharged and steam contacts the X-element,
the temperature will increase causing the air vent
valve (A) to close
4. Closed Position
When the condensate flow rate decreases, the
X-element expands due to the heat of the steam,
closing the air vent valve (A). In addition, the float
falls as condensate is discharged, closing off the
orifice (B). A water seal is maintained at all times
over the orifice (B) to prevent steam loss.
Air
Steam
Condensate
