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Categories | PSA Nitrogen Generator |
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Brand Name: | Hongjinli |
Name: | Box PSA Nitrogen Generator |
Nitrogen capacity: | 1 ~100Nm3/h |
Nitrogen purity: | 95%-99.999% |
Nitrogen pressure: | 0.5-0.8Mpa(boost for high pressure) |
Nitrogen dew point: | ≤-40℃(Atmosphere pressure) |
Control power supply: | 0.2kw 220v 50Hz |
Company Info. |
Suzhou Hongjinli Gas Equipment Co., Ltd. |
Verified Supplier |
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Product List |
PSA Nitrogen Generator
Description
A complete nitrogen generation system typically consists of several important components that work together to produce nitrogen gas. Here is a description of the key components:
Air Compressor: The air compressor is responsible for supplying compressed air to the system. It takes in ambient air, compresses it, and delivers it to subsequent stages for further processing.
Air Treatment Equipment: The air treatment equipment includes components such as filters, dryers, and condensate drains. Filters remove contaminants, such as dust and oil, from the compressed air. Dryers remove moisture to achieve the desired low dew point, ensuring dry and clean air for nitrogen generation.
Nitrogen Generator: The nitrogen generator is the core component of the system. It separates nitrogen gas from the compressed air using various methods, such as pressure swing adsorption (PSA) or membrane technology. The generator selectively removes oxygen and other impurities, producing high-purity nitrogen gas.
Air Receiver Tank: The air receiver tank serves as a storage vessel for the compressed air. It helps stabilize the system's air pressure, reducing pressure fluctuations and providing a reservoir of compressed air during high-demand periods.
Nitrogen Storage Tank: The nitrogen storage tank is used to store the generated nitrogen gas. It ensures a continuous supply of nitrogen and allows for buffer capacity to meet fluctuating demand. The storage tank is often equipped with pressure regulation and safety devices.
Control System: The control system consists of sensors, controllers, and software that monitor and regulate the operation of the nitrogen generation system. It oversees parameters such as pressure, flow, dew point, and purity, ensuring optimal performance, safety, and efficiency.
Distribution System: The distribution system delivers the nitrogen gas from the storage tank to the desired points of use. It typically includes pipelines or hoses, pressure regulators, flow meters, and any necessary valves or fittings to control the nitrogen flow.
Safety Devices: Safety devices are essential to protect the system and personnel. These may include pressure relief valves, pressure switches, temperature sensors, and alarms that monitor critical parameters and provide overpressure or fault protection.
Instrumentation and Monitoring: Instruments such as pressure gauges, flow meters, and dew point meters are used to measure and monitor various parameters within the system. They provide real-time data for system control, troubleshooting, and maintenance.
Exhaust System: The exhaust system is responsible for venting any excess or waste gases, such as oxygen-enriched air, that are not utilized in the nitrogen generation process. Proper exhaust management ensures safe operation and prevents the accumulation of potentially hazardous gases.
These components work together to ensure the reliable and efficient production of nitrogen gas based on the specific requirements of the application. The system can be customized and scaled according to the desired nitrogen purity, flow rate, and storage capacity.
PSA Nitrogen Generator Technical features :
Safety devices play a crucial role in nitrogen generation systems to ensure safe operation and protect personnel, equipment, and the environment. Here are some common safety devices used in nitrogen generation systems:
Pressure Relief Valve: A pressure relief valve is designed to relieve excess pressure from the system in the event of an overpressure situation. It automatically opens to release the compressed gas when the pressure exceeds a predetermined set level, preventing damage to the system or any potential hazards.
Pressure Switch: Pressure switches are used to monitor and control the system's pressure. They can be set to activate an alarm or trigger specific actions when the pressure exceeds or falls below certain limits. Pressure switches help ensure that the system operates within safe pressure ranges.
Temperature Sensors: Temperature sensors, such as thermocouples or RTDs (Resistance Temperature Detectors), monitor the temperature in critical areas of the system. They provide feedback to the control system to prevent overheating and potential risks associated with high temperatures.
Oxygen Sensors: Oxygen sensors are used to monitor the oxygen concentration in the system. They ensure that nitrogen gas with the desired level of purity is being produced. If the oxygen concentration exceeds the specified limits, the sensor triggers an alarm or initiates corrective actions to maintain the required nitrogen purity.
Flame Arrestors: Flame arrestors are safety devices installed in the system's exhaust or vent lines to prevent the propagation of flames or explosions. They contain a mesh or other materials that extinguish flames by dissipating heat, preventing flames from reaching flammable gases or environments.
Emergency Shutdown (ESD) System: An emergency shutdown system is designed to rapidly shut down the nitrogen generation system in case of emergencies or abnormal conditions. It can be activated manually or automatically when specific conditions, such as high pressure, high temperature, or gas leakage, are detected. The ESD system helps mitigate risks and prevent further damage or accidents.
Gas Detectors: Gas detectors, including oxygen, combustible gas, and toxic gas detectors, are used to continuously monitor the presence of hazardous gases in the environment. They provide early warning alarms or initiate safety measures if gas leaks or concentrations reach hazardous levels.
Safety Interlocks: Safety interlocks are mechanisms that ensure certain conditions are met before allowing specific actions or operations to occur. For example, interlocks can prevent the nitrogen generation system from starting if certain safety parameters are not within acceptable ranges. They help enforce safe operating procedures and prevent potential hazards.
Fire Suppression Systems: Fire suppression systems, such as fire extinguishers, sprinkler systems, or specialized suppression agents, may be installed in areas where fire risks are present. They provide immediate response and control in case of fire emergencies.
It's important to note that the specific safety devices used in a nitrogen generation system may vary depending on factors such as system configuration, scale, and the requirements of applicable safety standards and regulations. Proper installation, maintenance, and regular testing of these safety devices are essential to ensure the system's safe and reliable operation.