Heat exchangers – ClimaCool UGW Manual User Manual

43

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Heat Exchangers

Draining

When performing standard maintenance procedures

such as flushing a heat exchanger, it will be necessary to

close off a section of a module. This can easily be done

if factory mounted water isolation valves are provided .

Access to a floor drain is helpful when performing standard

maintenance procedures .

Back Washing

It may become evident from the recorded weekly log

data that the performance of the chiller is gradually

degrading . This could be due to a buildup of debris or sludge

obstructing the free passage of flow through the heat

exchangers . The debris can be removed by a back washing

process which involves the introduction of a forced, violent

backwards flow through the heat exchanger using a

carefully formulated flushing solution. To be effective, this

back flow should be slightly higher than the normal flow,

and in the opposite direction. The difficulties and practicality

of this method depend on the back wash pumping system

itself. Another method is to back flush each heat exchanger

using city water as opposed to system water (see Figure

14 – City Water Cleaning Arrangement on Page 44) . The

back washing procedure is accomplished by isolating each

individual heat exchanger and introducing the city water

using a connection hose to the ¾” service port to flow in

an opposite direction from the normal heat exchanger flow

direction . On the opposite ¾” service port, connect a drain

hose to run to a suitable floor drain. Continue the back flow

until all debris is removed . Warning: Water valves must be

re-opened after flushing is complete.

Chemical Clean In Place Washing Without Water

Isolation Valves

Chemical clean in place washing will typically provide

the best debris removal, even from severely clogged

heat exchangers . In order to clean the heat exchangers

for modules WITHOUT water isolation valves, it will be

necessary to mechanically and electrically isolate each

module separately from the bank of modules . The rest of

the chiller modules will need to be disabled during this

cleaning procedure as the flow through the main bank

header will be interrupted . The cleaning tank, pump and

pump strainer should be arranged in the manner shown in

Figure 15 - In Place Cleaning Arrangement (page 44). The

flow of the cleaning is arranged in the opposite flow to

the normal operational direction . Connection points are

provided using the ¾” service ports at each heat exchanger .

The cleaning solution used can be either a detergent or hot

water to remove particles and simple cleaning . If correct

water treatment has been implemented, this should provide

adequate cleaning for most situations . The solution can

be pumped through the heat exchangers and allowed to

“soak” for a time and then pumped again . Upon successful

cleaning of a module, proceed to isolate a second module

separately from the bank to repeat the cleaning process .

Chemical Clean In Place Washing With Water

Isolation Valves

Chemical clean in place washing will typically provide the

best debris removal, even from severely clogged heat

exchangers . It is only necessary to mechanically and

electrically isolate one module at a time . The rest of the

chiller modules can continue to operate to satisfy the

required cooling load . The cleaning tank, pump and pump

strainer should be arranged in the manner shown in Figure

15 - In Place Cleaning Arrangement (page 44). The flow of

the cleaning is arranged in the opposite flow to the normal

operational direction . Connection points are provided

using the ¾” service ports at each heat exchanger . The

cleaning solution used can be either a detergent or hot

water to remove particles and simple cleaning . If correct

water treatment has been implemented, this should provide

adequate cleaning for most situations . The solution can be

pumped through the heat exchangers and allowed to soak

for a time and then pumped again .
If it is required to remove carbonates, then an acidic wash

should be used . A 2% solution of phosphoric or sulfamic

acids in pure water are generally acceptable . These acid

solutions should only be allowed to circulate within the heat

exchanger for 10 to 15 minutes, followed by a thorough pure

water flush for 10 to 15 minutes. Hydrochloric or sulfuric

acids must not be used . In any case, consult the chemical

supplier to establish the correct formulation and handling

process . The materials exposed to the wash are stated on

page 15 – Water Treatment .
Once the washing is complete, the solution should be

flushed out completely by pumping clean, fresh water

through the chiller . To achieve a reasonable level of dilution,

it may be required to change the water several times . After

cleaning, the water quality and water treatment should

be confirmed.