Medical Oxygen Supply System
The HU-RAK04 is a module based, cost effective Medical Oxygen Supply System that is able to provide 93%+-3% pure oxygen to small, medium and large healthcare facilities.
Oxygen concentrators filter the surrounding air, compressing it to the required density and then delivering purified medical grade oxygen into a delivery system. It’s also equipped with special filters and sieve beds which help remove Nitrogen from the air to ensure delivery of purified oxygen. These devices are compact, lighter and less bulky than traditional oxygen tanks.
Normal Care to Intensive Care, High Care, Operating Theatre
The unit is designed to produce high quality, medical grade oxygen from compressed air with an oxygen purity level of +/- 93%.
The unit is supplied with a built-in purity analyser.
Replaceable modular units and 24 hours’ sustainability of oxygen production (real-time generation).
The unit generate +/- 15 litres per 1 KW (compared with international standard of 10 litres per 1 KW).
Working temperature: 0°C to 40°C.
The HU-RAK-Series is the preferred solution in areas where a conventional bulk tank or cylinder manifold system is difficult to utilise.
The design provides the cost-effective delivery of medical oxygen within a compact footprint.
The unit consists of:
– Four oxygen generator modules + 1 booster unit.
– Capacity:1 oxygen generator module: +/- 7 litres per minute.
– Capacity: 4 oxygen generator modules: +/- 28 litres per minute.
– Maximum Capacity:1 oxygen machine: up to 40 000 litres per day.
Purity of Oxygen: 93+/- 3%
Oxygen Flow Rate: 26 +/- 3 LPM (32 +/- 3 LPM)
Oxygen Supply Pressure: 4 ~ 5 bar
Power Consumption: 2.0 KVA ±10 % (2.4 KVA ±10 %)
Input Voltage: 230 VAC / 50 Hz (220 VAC / 60 Hz)
Noise: Below 70 dB
Weight: 250 Kg
Dimensions: 1052 mm x 612 mm x 1670 mm
Alarm: Power Failure alarm, low pressure alarm, oxygen purity alarm.
Oxygen Supply a Day: 61 Kg
The unit can be installed in any area of the facility where it can link to the oxygen delivery system. The unit must be installed on an even surface with sufficient airflow around it.