Vortex Tube Coolers

Maintenance-free enclosure & cabinet cooling devices with no moving parts.

Made of AISI 304 stainless steel. Operated by clean, dry compressed air.

How do vortex tubes work?

A Vortex Tube is a device with no moving parts that converts any stream of compressed air into two streams – one hot and one cold.

A Vortex tube can produce cold air down to -35°C and hot air up to +127°C.

CLEAN, DRY compressed air is injected tangentially into the tube at sonic speed, with a grooved insert that creates a cyclone/vortex of air spinning at about one million revolutions per minute.

Part of the air is forced to spin inward and travels up the tube length where a valve turns this spinning vortex of air in on itself.

The inner column of air gives up its heat to the outer column.

Cold air is directed out the cold end of the Vortex Tube into the enclosure, with hot air directed out.

The temperature and air flow can be controlled by adjusting the valve at the hot end of the tube.

For the vortex tube to work efficiently, the enclosure needs to be vented to allow through-flow of air.

This can be achieved by fitting vents or louvres on the enclosure.

It is essential that the compressed air introduced into the tube is CLEAN and DRY, ACHIEVED BY MEANS OF A 5µ oil-coalescing air filter (preferably self-draining).

vortex-tube-collers

Description

Description

ARIZONA Vortex Tube Coolers

Ref.	Description	Inlet Pressure kPa	Air Consumption l/min	Watt	BTU/hr	kcal/hr
V20025	CNC Cooler, 35scfm, FIXED	700	704	480	1500	380
V10007	MINI Vortex tube 8scfm	700	225	125	400	100
V10008	Vortex Tube 8scfm adjustable	700	225	125	400	100
V10010	Vortex Tube 10scfm adjustable	700	282	190	600	150
V10015	Vortex Tube 15scfm adjustable	700	423	285	900	230
V10025	Vortex Tube 25scfm adjustable	700	704	480	1500	380
V10035	Vortex Tube 35scfm adjustable	700	986	795	2500	630

Accessories:

Model No.	Description
V10000	Cold end muffler
V10001	Hot end muffler
V20236	Vortex Air Kit: 5µ Oil Coalescing Filter + Solenoid valve +Thermostat

Performance Data:
cold fraction: (the percentage of the total flow which comes out as cold air – 60% is typical)

inlet pressure kPa	temperature	20%	30%	40%	50%	60%	70%	80%
140	drop	17.3 °C	16.3 °C	13.4 °C	10.7 °C	7.0 °C	2.8 °C	1.8 °C
	increase	9.4°C	4.2 °C	3.2 °C	10.7 °C	18.4 °C	28.1 °C	42.3 °C
280	drop	31.8 °C	29.9 °C	27.3 °C	22.9 °C	17.3 °C	11.4 °C	4.0 °C
	increase	4.8 °C	1.8 °C	11.2 °C	22.9 °C	33.8 °C	47.2 °C	64.6 °C
410	drop	40.2 °C	38.8 °C	34.3 °C	29.0 °C	23.1 °C	16.1 °C	7.5 °C
	increase	3.6 °C	4.4 °C	15.1 °C	29.0 °C	40.1 °C	56.2 °C	76.2 °C
550	drop	47.3 °C	44.6 °C	39.1 °C	33.5 °C	27.4 °C	19.0 °C	10.1 °C
	increase	3.3 °C	6.7 °C	17.8 °C	33.5 °C	45.6 °C	62.4 °C	82.9 °C
700	drop	53.5 °C	48.7 °C	44.0 °C	38.0 °C	30.3 °C	22.2 °C	12.0 °C
	increase	2.3 °C	7.8 °C	19.6 °C	38.0 °C	48.9 °C	66.2 °C	89.0 °C

Need help? Call our support team at 011 472 2220

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