A liquid nitrogen generator is a device that produces liquid nitrogen by cooling air to a very low temperature, typically using a refrigeration cycle. The generated liquid nitrogen can be used for various purposes, including industrial cooling, preservation of biological samples, and cryogenic processes.
What is a Liquid Nitrogen Generator used for?
A liquid nitrogen generator is commonly used for:
1. Industrial cooling and freezing processes.
2. Preservation of biological samples, such as blood and vaccines.
3. Cryogenic processes in research and industrial applications.
4. Shrinking metal components to improve tightness of metal-to-metal connections.
5. Producing nitrogen gas for industrial processes.
How does a nitrogen generator work?
A Liquid Nitrogen Generator works by separating nitrogen from air using a pressure swing adsorption (PSA) process, where compressed air passes through a bed of zeolite that selectively adsorbs nitrogen, leaving other gases behind. After the bed is saturated, it is purged and the nitrogen is condensed into liquid form. This process is repeated continuously to produce a steady supply of liquid nitrogen.
The principle of operation of the Liquid Nitrogen Generator
The principle of operation of a Liquid Nitrogen Generator is based on pressure swing adsorption (PSA), which uses zeolite molecular sieve as the adsorbent to separate nitrogen from air. The compressed air is passed through a bed of zeolite, which adsorbs nitrogen and releases other gases. After the bed is saturated, it is purged to release the nitrogen and then re-pressurized to repeat the process. The nitrogen is then condensed into liquid form and collected in a storage tank. This cycle is repeated continuously to produce a steady supply of liquid nitrogen.
Parts of a Liquid Nitrogen Generator
The main parts of a Liquid Nitrogen Generator are:
1. Air Compressor: Compresses air from the atmosphere to high pressure for use in the PSA process.
2. Zeolite Molecular Sieve: Separates nitrogen from other gases in the air through adsorption.
3. Pressure Vessels: House the zeolite beds and are purged to release the nitrogen.
4. Control System: Regulates the pressure, flow and timing of the PSA process.
5. Condenser: Converts the nitrogen gas into liquid form.
6. Storage Tank: Stores the liquid nitrogen for use.
7. Pumps: Circulate the nitrogen and control its flow to the storage tank.
8. Safety Devices: Include pressure relief valves and emergency shutdown systems to ensure safe operation.