
The DX Model Nitrogen Generation System is an advanced PSA-based solution designed to deliver extremely high-purity industrial nitrogen generator by integrating a catalytic purification stage. In this system, nitrogen produced through PSA technology is further refined using a Deoxo Unit, where residual oxygen reacts with hydrogen and is removed through an exothermic reaction process. This additional purification step ensures ultra-high nitrogen purity, making the DX Model suitable for highly sensitive industrial applications.
The system is widely used in industries where even trace levels of oxygen can impact product quality or process stability, such as electronics manufacturing, pharmaceuticals, food packaging, and precision chemical processing. The DX Model is engineered to deliver consistent performance, operational reliability, and long-term efficiency while maintaining strict gas purity requirements.
PSA Nitrogen Generation → Hydrogen Injection → Catalytic Deoxo Reaction → Ultra-Pure Nitrogen Output

| Model Type | DX Nitrogen Generation System |
| Technology | PSA with Catalytic Deoxo Purification |
| Reactor Type | Catalyst-Based Deoxo Unit |
| Operation | Fully Automated Industrial System |
| Output Quality | Ultra-High Purity Nitrogen |
|
● Electronics Manufacturing ● Pharmaceutical Industry ● Food Packaging Industry ● Chemical Processing ● Metallurgical Applications ● Heat Treatment / Annealing |
| Flow Rate | 1–5000 Nm³/hr |
| Nitrogen Purity | Up to 99.9997% |
| Operating Pressure | Above 5 bar |
| Dew Point | -60°C to -80°C |
|
● Advanced catalytic nitrogen purification system ● Integrated PSA and Deoxo technology ● catalyst-based oxygen removal ● Ultra-high purity nitrogen output ● Stable and continuous industrial operation ● Suitable for sensitive industrial applications |
The DX Model is used to produce ultra-high purity nitrogen for industries that require extremely low oxygen levels in their processes.
It combines PSA industrial nitrogen generator with a catalytic Deoxo Unit where oxygen reacts with hydrogen and is removed using a palladium catalyst.
It is commonly used in electronics, pharmaceuticals, food packaging, chemical processing, and heat treatment industries.
The Deoxo process removes trace oxygen from nitrogen, ensuring very high purity levels required for sensitive industrial applications

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