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Aquila Triventek Recovery Units

  • Aquila Triventek Recovery Units

Dry Ice is normally produced by bringing liquid CO2 up to atmospheric pressure. When this happens approximately half of the liquid CO2 turns into solid 'snow', which is typically compressed to ice, and the other half (called 'revert' gas) is simply vented to the atmosphere. But, by using revolutionary Aquila Triventek Recovery Units, all of the revert gas is collected, chilled and compressed to liquid CO2 and sent back to the Pelletizer.

This, low capital cost, patented development greatly exceeds the efficiency of even the very largest, big capital, recovery plants that utilise old technology.

Furthermore, the energy cost is halved in comparison to traditional methods. The liquid CO2 storage vessel can be smaller, or deliveries can be made even less frequently, since a system with recovery will use approximately half the quantity of liquid CO2 than a non-recovery unit assisted Pelletizer would.

Using Aquila Triventek Recovery Units will reduce production costs by approximately 50% and rapidly increase operating margins and profits. In this way it makes 'dry ice on tap' affordable for even the more modest volume user.

Ask us for an illustration of the economic benefits in your circumstances.

The reduction in ongoing costs is so powerful that multisystem installation is profitable for larger dry ice volume requirements, since the capital cost is rapidly paid back out of revenue cost savings.

Aquila Triventek Recovery Units are simple to install, operator friendly, and are activated with one simple switch.


RE 80:

Power Supply:
3x400/50Hz (Other voltages/Hz on request)
Power consumption:
24 kW
Max. current:
41 Amps
Operation current:
28 Amps (Required start-up Amps should be calculated as 5 to 6 times Amp usage.)
Dimensions (WxDxH):
1320x1960x1570 mm
Max ambient temperature:
40°C
Max. hose length between PE80 and RE80:
6m
Total heat rejection:
18 kW
Airflow:
Approximately 8500m3/h
Power connection:
63A/3P+E

RE 160:

Power Supply:
3x400/50Hz (Other voltages/Hz on request)
Power consumption:
35 kW
Max. current:
70 Amps
Operation current:
28 Amps (Required start-up Amps should be calculated as 5 to 6 times Amp usage.)
Power connection:
63A/3P+E
Dimensions (WxDxH):
2420x1370x1640 mm
Max ambient temperature:
40°C
Max. hose length between PE80 and RE160:
8m.
Airflow:
Approximately 20,000m3/h
Total heat rejection:
26 kW


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