Easicool™ precision air conditioning – Airedale EasiCool 6kW 64kW User Manual

EasiCool™

Precision Air Conditioning

47

EasiCool Technical Manual 7525389 V1.1.0_02_2013

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Installation

Liquid Sub Cooling

The degree of liquid sub cooling required to prevent flashing of liquid refrigerant can be calculated by the following
method.

Given the following as an example:

• Refrigerant R410A
• Condensing temperature (54.4°C) equivalent

condensing pressure at 54.4°C = 34 Bar

• Liquid lift 20m
• Piping friction loss 0.21 bar
• Losses through valves and fittings 0.5 Bar

Pressure Loss due to Liquid Lift

Note:- At normal liquid temperatures
the static pressure loss due to
elevation at the top of a liquid lift
0.115 bar/m.

= H x spl

Where
H

= Height (m)

spl

= Static pressure loss

= 20 x 0.115 = 2.3 bar

Total Pressure Loss in Liquid Line

TPL Liquid = PFL + Valves

Where
PFL

= Pipe friction loss (0.21Bar)

Valves = Losses through Valves and fittings

= 0.21 +0.5 + 2.3
Total pressure loss in liquid line = 3.01 Bar

Nett Pressure at Expansion Valve

= Condensing pressure - Total pressure loss in liquid line

Saturation temperature at the nett pressure
at expansion valve (30.99 bar) = 52°C
(from refrigerant tables)

Sub Cooling Required

=Condensing temperature - Saturation temperature

= 34 - 3.01 = 30.99 bar

Subcooling = Condensing temperature — Saturation temperature (Nett pressure at expansion valve)

= 54.4 - 52 = 2.4 °C

Therefore liquid sub cooling required to prevent
liquid flashing = 2.4 °C