Electronic expansion valves (eev), Ultima compact freecool chillers, Design features & information – Airedale Ultima Compact FreeCool 30kW - 450kW User Manual

ULTIMA COMPACT FREECOOL

Chillers

14

Chillers

Technical Manual : 6259576 V1.2.0_02__2013

Design Features & Information

ELECTRONIC
EXPANSION VALVES
(EEV)

Using an EEV allows for good refrigeration control whilst operating at part load and lower
ambient conditions with a reduced condensing pressure. By fitting an EEV and adjusting
the head pressure control setting an increase in the system EER (Energy Efficiency
Ratio) of up to 30% can typically be seen. The Mollier diagram shown below helps to
illustrate how this increase in efficiency is achieved.

EEV’s differ to normal thermostatic expansion valves in their ability to maintain control of
refrigerant flow and the suction superheat at reduced head pressures. The turn-down rate
of a typical EEV is superior to that of its thermostatic equivalent, such that a reduced
optimum condensing pressure can be maintained at low compressor load. However low
the load is on the compressor, from zero to 100%, there will not be a problem with turn
down, even down to 30% of the valves rated capacity.

B

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b

b

le

D

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1

1

3

4

2

1

Compression

2

Condensation

3

Expansion

4

Evaporation

Reduced Condensing

Pressure

Pres

s

ure

(Bara

)

Evaporating Pressure

In

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i

n

C

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lin

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D

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ty

Enthalpy (kJ/kg)

R

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tion

in

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mpr

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In

p

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P

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Key

Cooling Cycle @ 22°C ambient with a conventional TEV fitted.

Cooling cycle @ 22°C ambient, demonstrating a typical EEV condensing
temperature taking full advantage of lower ambient air temperatures (below 30°C).