3 drycooler loop system, 1 glycol solutions, Table 3 ethylene glycol concentrations – Emerson Liebert XDF User Manual

Piping Considerations—Water/Glycol Models Only

29

5.3

Drycooler Loop System

5.3.1 Glycol Solutions

The percentage of glycol to water must be determined by using the lowest design outdoor temperature in

which the system is operating. Table 3 indicates the solution freeze point at several concentration levels

of ethylene glycol. Propylene glycol concentrations should be 1% higher than the ethylene glycol table val-

ues to find the freeze point. For example, 41% propylene glycol freezes at -10°F (-12°C).

The user must determine whether the planned use of glycol complies with national, state and local

regulations.

Typical inhibited formula ethylene glycol and propylene glycol manufacturers and suppliers are

Union Carbide (Ucartherm) or Dow Chemical (Dowtherm SR-1, Dowfrost). These glycols are supplied

with corrosion inhibitors and do not contain a silicone anti-leak formula. Do not use glycols with sili-

cone anti-leak additives because they reduce cooling performance. Commercial ethylene glycol, when

pure, is generally less corrosive to the common metals of construction than water itself. Aqueous solu-

tions of these glycols, however, assume the corrosivity of the water from which they are prepared and

may become increasingly corrosive with use if not mixed with corrosion inhibitors.

Table 3

Ethylene glycol concentrations

% Glycol by Volume

0 *

10

20

30

40

50

Freezing Point °F (°C)

32 (0)

25 (-3.9)

16 (-8.9)

5 (-15.0)

-10 (-23.3)

-32 (-35.5)

Apparent Specific Gravity

@ 50°F (10°C)

1

1.014

1.028

1.042

1.057

1.071

* A minimal amount of glycol should be considered for inhibitive coil protection.

!

CAUTION

Risk of material reaction. Can cause piping damage.
Galvanized pipe must not be used in or with systems or units that contain glycol.

Phosphates in the inhibitor can react with zinc in the galvanized pipe, precipitating an

insoluble material that can foul the system.

NOTE
When mishandled, glycol products pose a threat to the environment. Before using any glycol

products, review the latest Material Safety Data Sheets and ensure that you can use the

product safely. For Material Safety Data Sheets and other product safety information, contact

the nearest supplier.
Glycol manufacturers request that the customer read, understand and comply with the

information on the product packaging and in the current Material Safety Data Sheets. Make

this information available to anyone responsible for operation, maintenance and repair of the

drycooler and related equipment.

NOTE
Automotive antifreeze is unacceptable and must NOT be used.

Table 4

Glycol supply flow rates

Glycol Type

Entering Coolant

Temperature

Saturated Cond.

Temperature (SCT)

Flow Rate

GPM (l/s)

Pressure Drop

ft (kPa)

Ethylene (40%)

115°F (46°C)

135°F (57°C)

15.0 (.95)

11.6 (34.6)

Propylene (40%)

115°F (46°C)

135°F (57°C)

15.0 (.95)

18.5 (55.4)

Table assumes 95°F ambient, 77°F discharge air, 10°F temperature rise on the heat transfer media.

Table 5

Drycooler selection

Ambient

Temperature,

°F (°C)

Drycooler

Model

Glycol Pump

HP

Standard Pump Model

1-Phase

(57 ft @ 15GPM)

High Head Pump Model

3-Phase

(70 ft @ 15GPM)

95 (35.0)

D** 092A

3/4

P13-0030

P02-0340

105 (40.6)

D** 174A

3/4

P13-0030

P02-0340

110 (43.3)

D** 225A 16

3/4

P13-0030

P02-0340