Description
SmartFluxx SA604
Nitrogen membrane module
Parker hollow-fibre membrane modules produce nitrogen gas from compressed air to offer a costeffective, reliable and safe alternative to traditional cylinder or liquid nitrogen gas supplies. Nitrogen is used as a clean, dry, inert gas primarily for removing oxygen from products and/or processes. Parker modules can be built into a custom-made nitrogen generator or can be integrated with your process to provide an on-demand, continuous source of nitrogen gas. Gas which can be used in a wide range of industries including food, beverage, pharmaceutical, laboratory, chemical, heat treatment, electronics, transportation, oil & gas, mining and marine.
Benefits:
- Less membrane modules needed per nitrogen system
- More nitrogen per fibre is produced from Parker hollow-fibre membranes than any other in the world
- Use of low pressure standard industrial compressor
- No high pressure compressor needed to obtain required nitrogen flow
- Energy savings
- Operation at a low pressure requires less energy
- Reduced CO2 emissions
- No heater required to open polymer membrane structure, thus reducing the energy consumption
- Robust fibre
- Most tolerant fibre to particle contamination
- Large membrane diameter
- Lowest membrane module pressure drop
- Factory membrane ageing, pre-delivery
- No performance decrease over time due to fibre ageing
- Quick start-up time
- Required nitrogen purity is produced instantly, no time needed to heat-up
- Flexible mounting arrangements
- Can be mounted horizontal or vertical
- Low noise operation
- Radiated noise generated by membrane technology is extremely low
- No maintenance required
- No user serviceable parts
- Small system footprint
- Less modules needed to produce nitrogen requirements
Note
Parker membrane systems produce both nitrogen and oxygen enriched air. Nitrogen enriched air can cause suffocation and oxygen enriched air causes increased fire hazards. The oxygen enriched air is available at ambient pressure and pressure build-up of enriched oxygen at the outlet must be prevented, otherwise a serious (reversible) decrease in performance will result. The nitrogen enriched air produced should be treated as pressurised air.