SYSADVANCE generators produce high purity Nitrogen from compressed air, allowing continuous availability at a very competitive cost, compared to alternative supply with cylinders or cryogenic tank.
Nitrogen eliminates all disadvantages associated to purchase and operation costs of high-pressure cylinder systems or cryogenic tanks, enabling a permanent source of Nitrogen, with minimum energy consumption and maintenance requirements. Nitrogen is designed to be easily installed in any indoor facility, requiring only a compressed air line and a power connection.
With purities up to 99.999% of N2, Nitrogen can be connected to an external buffer allowing a backup or a delay of production/consumption according to the needs of each application.
The modular philosophy of SYSADVANCE Nitrogen generators allows the installation of multiple parallel units.
- Nitrogen pressure up to 9 bar (without Booster)
- LCD display
- Oxygen analyzer
- 4.0 Ready
- Purity up to 99.999%
- VARIO PSA (optional)
- Reduction of Nitrogen costs up to 95%
- Independence from external gas suppliers and from fluctuation of the nitrogen market prices
- Suppression of logistic operations like handling a cylinders or or liquid nitrogen supplier management
- Modular, flexible and low maintenance units
Variable Flow PSA Technology
Standard PSA cycles have fixed production and regeneration time cycles designed for optimum efficiency at a constant nominal production.
Some processes have a gas consumption demand that can vary along the production shifts or different steps, thus requiring variable gas flows at a fixed purity. Standard PSA tend to be less efficient under these consumption scenarios.
Lower than the nominal consumption rates will have an effect on the standard PSA which is purity increase, thus decreasing efficiency by higher than needed air consumption.
SYSADVANCE VARIO option allows for a s smart control of the PSA cycle times by continuous monitoring of the outlet purity thus adapting the PSA production capacity to the fluctuating process demand keeping constant the specific air consumption, therefore maximizing efficiency on a variable consumption scenario, while maintaining a constant required purity.