Flowserve GTS Series User Manual

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3.7 Insulation of sufficient thickness should be installed on the piping to prevent

excess radiation losses that result in condensate formation. Insulation

should be dry, weatherproofed, and undamaged.

If your steam piping system lacks one or more of these features you may

experience more problems with water slugs entering the turbine and with

condensate collecting in the turbine. These problems will be further worsened

if the steam main temperatures are near or at the saturation temperature of

the steam. Typically, turbines that are distant from the source of the steam

experience more problems because radiation losses have caused the steam

temperatures to drop and condensate formation to increase. Also, condensate

from upstream in the system will flow downstream if steam traps are not installed

and functioning properly at regular intervals along the steam main.
To reduce problems caused by water in the turbine, the case drain of the turbine

should be piped to a steam trap with the following features:
3.8 Mechanical free float actuation. There are a wide variety of steam traps on

the market that fall into three basic categories: mechanical, thermostatic,

and thermodynamic. A mechanical free float trap evacuates water

immediately, whereas other types of mechanical traps and the thermostatic

and thermodynamic traps operate intermittently. Intermittent operation can

allow condensate to back up into the turbine and possibly the seals, which

is undesirable.

3.9 Automatic air venting. This feature is necessary to prevent air present

during start-up from locking the trap and preventing it from evacuating

water.

3.10 Adequate size for condensate load. For instance, a turbine that is placed in

hot standby will experience a much higher condensate load than a turbine

that operates continuously or in slow roll. In hot standby, radiation losses

from the exhaust pipe will cause condensate to form and run down into the

turbine. If the exhaust line enters the bottom of the exhaust steam main,

condensate running along the bottom of the main will enter the turbine as

well. It will take a large trap to prevent condensate from flooding the turbine

and the seals.

In continuous operation or slow roll, hot inlet steam will enter the turbine

and flow out through the exhaust. This will usually keep the exhaust line

much warmer than in hot standby, reducing the flow of condensate into

the turbine. Of course, the steam trap must be sized for the worst case

condition. If a turbine experiences both hot standby and continuous

operation, the steam trap should be sized for hot standby.

3.11 Located as near the turbine as possible. Long piping distances between

a steam trap and a turbine can cause the trap to steam lock. This occurs

when the line to the trap is filled with superheated steam. Superheated