Nitrogen generator parameters refer to nitrogen purity, flow rate, pressure, atmospheric dew point, etc. When purchasing a nitrogen generator, the parameters of the nitrogen generator are required to obtain the corresponding quotation and plan. The following is a detailed introduction to each parameter:

1. Nitrogen purity (%): Purity is also a key parameter of the nitrogen generator. It refers to the percentage of nitrogen contained in the total gas. At present, the purity of nitrogen on the market can reach up to 99.9995%. The purity of nitrogen required by different industries is different, and users can choose the appropriate purity according to their own industry process requirements.

2. Nitrogen flow rate (Nm3/h): The flow rate refers to the volume of nitrogen generated by the nitrogen generator per minute or per hour. The volume is generally expressed in cubic m3. The current nitrogen generators on the market can generate a flow rate ranging from a few cubic meters per hour to a few cubic meters per hour. Ten thousand cubic meters per hour can be achieved, if the demand is large, you can choose the form of deep cooling or a combination of multiple nitrogen generators. Before determining the nitrogen flow rate, users can refer to the previous nitrogen bottle volume or the design volume of the design institute to purchase the nitrogen generator.

3. Dew point: The dew point of nitrogen refers to the temperature at which water vapor in nitrogen is condensed into water under standard atmospheric pressure. The dew point of nitrogen is also an index used to measure the water content in nitrogen. Most users do not require much dew point when using nitrogen. Individual users who have requirements for the dew point can additionally choose the adsorption dryer, because the dew point of the adsorption dryer is lower than that of the refrigeration dryer.

4. Working pressure (Bar/Mpa): The outlet pressure of conventional nitrogen generators is generally 0.1-0.7Mpa, which can be adjusted. However, some industrial processes require a nitrogen pressure higher than 0.7Mpa. At this time, a booster is needed to pressurize the nitrogen to the required pressure.