Product Details:
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Product Name: | Nitrogen Purification Generator | Material: | Steel |
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Color: | Bright Or Customized | Oxygen Output: | ≤200Nm3/hr |
Purity: | 99.99% | Pressure: | 0.4~1.0Mpa |
Atmospheric Dew Point: | ≤-60℃ | ||
Highlight: | Remote Monitoring Nitrogen Gas Purification System,Automatic Nitrogen Purification System,Steel Nitrogen Purification System |
Nitrogen Purification System With Remote Monitoring System, Achieving Unmanned Automatic Operation And Reducing Costs
Product name |
Nitrogen Purification Generator |
Nitrogen delivery |
≤200Nm3/hr |
Purity |
99.99% |
Pressure |
0.4~1.0 Mpa |
Atmospheric dew point |
≤-60℃ |
Working Principle Description:
Adsorbent Selection: Choose an appropriate adsorbent, typically a highly selective molecular sieve or activated carbon. These adsorbents possess specific adsorption characteristics that enable selective adsorption of hydrogen and oxygen.
Feed Gas: Introduce the gas mixture that requires purification into the nitrogen purification system. This mixture typically consists of nitrogen, hydrogen, and oxygen.
Adsorption Stage: The gas mixture passes through the adsorbent bed, where hydrogen and oxygen are adsorbed onto the surface of the adsorbent, while nitrogen passes through the bed.
Hydrogenation Stage: In the nitrogen purification process, a certain amount of hydrogen is added to the gas. The purpose of hydrogenation is to increase the desorption rate of oxygen, thereby enhancing the removal of oxygen.
Desorption Stage: Through appropriate conditions, such as increasing temperature or reducing pressure, hydrogen and oxygen on the adsorbent surface are desorbed. This allows the adsorbent to be reused for nitrogen purification.
Outlet Gas: Obtain high-purity nitrogen from the system after nitrogen purification. The purity of nitrogen depends on the choice of adsorbent and the effectiveness of the hydrogenation and deoxygenation processes.
Product Advantages:
Remote Monitoring: The remote monitoring system allows operators to monitor the nitrogen purification system from a centralized location. They can access real-time data, system parameters, and performance indicators without being physically present at the site. This enables proactive monitoring, timely intervention, and troubleshooting, even from remote locations.
Unmanned Automatic Operation: With remote monitoring capabilities, the nitrogen purification system can be operated automatically without the need for constant on-site supervision. The system can be configured to perform routine tasks, such as starting/stopping the purification process, adjusting parameters, and initiating alarms or maintenance procedures, all remotely. This reduces the need for manual intervention and enables unmanned operation, improving operational efficiency.
Cost Reduction: Unmanned automatic operation and remote monitoring contribute to cost reduction in several ways. Firstly, it eliminates the need for constant on-site personnel, reducing labor costs. Secondly, remote monitoring allows for centralized control of multiple nitrogen purification systems, optimizing resource allocation and reducing operational expenses. Additionally, the system's ability to detect and address issues promptly minimizes the risk of equipment damage or breakdowns, reducing maintenance and repair costs.
Technical parameters:
● Nitrogen delivery ≤200Nm3/hr;
● Purity 99.99%
● Pressure 0.4~1.0 Mpa
● Atmospheric dew point ≤-60℃
Product picture:
Contact Person: Mr. Jack Shi
Tel: +8615962151869
Fax: 86-512-66067218