Step 6 — fill the chilled water loop, Caution – Carrier AQUASNAP 30MPA User Manual

13

Step 6 — Fill the Chilled Water Loop

WATER SYSTEM CLEANING — Proper water system

cleaning is of vital importance. Excessive particulates in the

water system can cause excessive pump seal wear, reduce or

stop flow, and cause damage of other components. Water

quality should be maintained within the limits indicated in

Table 2. Failure to maintain proper water quality may result in

heat exchanger failure.

1. Install a temporary bypass around the chiller to avoid cir-

culating dirty water and particulates into the pump pack-

age and chiller during the flush. Use a temporary circulat-

ing pump during the cleaning process. Also, be sure that

there is capability to fully drain the system after cleaning.

(See Fig 14.)

2. Be sure to use a cleaning agent that is compatible with all

system materials. Be especially careful if the system

contains any galvanized or aluminum components. Both

detergent-dispersant and alkaline-dispersant cleaning

agents are available.

3. It is a good idea to fill the system through a water meter.

This provides a reference point for the future for loop

volume readings, but it also establishes the correct

quantity of cleaner needed in order to get the required

concentration.

4. Use a feeder/transfer pump to mix the solution and fill the

system. Circulate the cleaning system for the length of

time recommended by the cleaning agent manufacturer.

a. After cleaning, drain the cleaning fluid and flush the

system with fresh water.

b. A slight amount of cleaning residue in the system can

help keep the desired, slightly alkaline, water pH of 8

to 9. Avoid a pH greater than 10, since this will

adversely affect pump seal components.

c. A side stream filter is recommended (see Fig. 15)

during the cleaning process. Filter side flow rate

should be enough to filter the entire water volume

every 3 to 4 hours. Change filters as often as neces-

sary during the cleaning process.

d. Remove temporary bypass when cleaning is

complete.

Table 2 — Water Quality Characteristics

and Limitations

*Sulfides in the water quickly oxidize when exposed to air, requiring that

no agitation occur as the sample is taken. Unless tested immediately
at the site, the sample will require stabilization with a few drops of one
Molar zinc acetate solution, allowing accurate sulfide determination up
to 24 hours after sampling. A low pH and high alkalinity cause system
problems, even when both values are within the ranges shown. The
term pH refers to the acidity, basicity, or neutrality of the water supply.
Below 7.0, the water is considered to be acidic. Above 7.0, water is
considered to be basic. Neutral water contains a pH of 7.0.

†Dissolved carbon dioxide can either be calculated from the pH and

total alkalinity values, shown below, or measured on the site using a
test kit. Dissolved Carbon Dioxide, PPM = TA x 2

[(6.3-pH)/0.3]

where TA

= Total Alkalinity, PPM as CaCO

3

.

FILLING THE SYSTEM — The initial fill of the chilled

water system must accomplish three purposes:

1. The entire piping system must be filled with water.
2. The pressure at the top of the system must be high enough

to vent air from the system (usually 4 psig is adequate for

most vents).

3. The pressure at all points in the system must be high

enough to prevent flashing in the piping or cavitation in

the pump.

The pressure created by an operating pump affects system

pressure at all points except one — the connection of the

compression tank to the system. This is the only location in the

system where pump operation will not give erroneous pressure

indications during the fill. Therefore, the best location to install

the fill connection is close to the expansion tank. An air vent

should be installed close by to help eliminate air that enters

during the fill procedure.

Distribution Pump

Expansion
Tank(s)

Air Separator
with Vent

Decoupler

Chiller 1

Chiller 2

Zone 1

Zone 2

Zone

3

NOTE: Expansion tanks must be disconnected for chillers placed parallel in the primary water loop.

Fig. 13 — Typical Air Separator and Expansion Tank Location on Primary-Secondary Systems

a30-3226

CAUTION

Failure to properly clean all piping and components of the

chilled water system before unit start-up may result in

plugging of the heat exchanger, which can lead to poor per-

formance, nuisance alarms and damage from freezing.

Freezing damage caused by an improperly cleaned system

represents abuse and may impair or otherwise negatively

affect the Carrier product warranty.

WATER CHARACTERISTIC

QUALITY LIMITATION

Alkalinity (HCO

3

-

)

70 – 300 ppm

Sulfate (SO

4

2-

)

Less than 70 ppm

HCO

3

-

/SO

4

2-

Greater than 1.0

Electrical Conductivity

10 – 500

S/cm

pH

7.5 – 9.0

Ammonium (NH

3

)

Less than 2 ppm

Chorides (Cl

-

)

Less than 300 ppm

Free chlorine (Cl

2

)

Less than 1 ppm

Hydrogen Sulfide (H

2

S)*

Less than 0.05 ppm

Free (aggressive) Carbon
Dioxide (CO

2

)†

Less than 5 ppm

Total Hardness (dH)

4.0 – 8.5

Nitrate (NO

3

)

Less than 100 ppm

Iron (Fe)

Less than 0.2 ppm

Aluminum (Al)

Less than 0.2 ppm

Manganese (Mn)

Less than 0.1 ppm