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10TA Service Manual

MAINTENANCE

7/1/14

7-4

Water Cooled Condensers

Checking Operation.

How often condensers need cleaning depends on so many variables that it is

impossible to recommend a schedule. Some will seldom need cleaning, others perhaps need cleaning
once a year. In rare cases, cleaning is required several times a year.

Proper  operation  of  cooling  towers  will  increase  the  interval  between  cleaning  considerably.    The
tower overflow rate should be checked frequently.  If a tower is operated with insufficient overflow,
nominal 1-1/2 to 3 GPH bleed depending on water quality, the resulting mineral concentration in the
water can cause rapid and heavy fouling inside the condenser tubes, requiring excessively frequent
cleaning.  Also, these conditions often lead to severe corrosion.

Chemical

additives, including those to stop algae and related growths, should be obtained only from a

reputable, established supplier, and used specifically according to directions.  Excessive treatment of
the  water  can  cause  more  harm  than  good:  and  the  condensers,  pumps,  piping,  and  the  towers
themselves may be damaged.

It is advisable to double check the system to make sure that fouling is actually causing the trouble.
High head pressure alone does not mean a fouled condenser.

The following possibilities should always be checked before cleaning is undertaken:

Non-condensables in system or faulty head pressure gauge? Check standby pressures against
refrigerant tables.

Incorrectly set or defective water regulator valve? Check its setting and operation.

Partly closed compressor discharge service valve? Check its setting. Stem should be backseated.

High water temperatures entering condenser? Check tower fan and system.

After the above possibilities have been eliminated, determine the temperature difference between the
water leaving the condenser and the refrigerant condensing temperature (saturation temperature, from
pressure-temperature chart, corresponding to head pressure). If this difference is more than 10

cleaning is indicated because this difference indicates a good heat exchange is not being made. If this
difference is less than 8

F, something other than a fouled condenser may be causing the high head

pressure. In normal operation, this difference will stay between 5

F and 10

F regardless of water inlet

temperature when the water flow is regulated by a pressure operated water valve. If this difference is
less than 5

F, restricted water flow or a low supply pressure is indicated. A restriction can occur with

foreign matter in the condenser, but it is likely to be somewhere else in the system.

Draining.

Draining of water cooled condensers is recommended in preparation for the winter cold

where units may be left exposed to ambient temperatures below 32

F. Despite the fact that a

condenser may have a vent and drain fittings, the opening of these fittings is not sufficient for a natural
gravity flow.  Water will be retained in a tube due to (1) surface tension and (2) the normal curvature
between tube supports.  Experience has shown that as much as 20% of the water in the condenser can
be retained.  To break the surface tension on the tubes and to drain all tubes completely, it is necessary
to  actually  tilt  the  condenser  a  minimum  of  5  degrees.    Whether  water  left  in  the  tubes  will  cause
damage during a freeze-up will be dependent upon how quickly the freeze occurs and the location of
the water inside the condenser.  In the field it is recommended that the tubes be blown out individually
with air.  Alternatively, a minimum of 25% ethylene glycol in the system will also prevent a freeze,
which can rupture the tubes.