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Can You Freeze Liquid Nitrogen?

Lawrence Haynes | 4 minutes | September 4, 2025

Yes, you can freeze liquid nitrogen at -210°C (-346°F), but it requires specialized equipment that reaches much lower temperatures than standard storage systems. Your dewars, tanks, and freezers maintain liquid nitrogen around -196°C (-321°F), which keeps it in liquid form during normal operations.

Below, you will learn:

  • Why specialized research and manufacturing applications sometimes need solid nitrogen
  • How you can freeze liquid nitrogen
  • What solid nitrogen looks like and how it behaves differently from liquid nitrogen
  • Safety considerations for handling solid nitrogen

Why Would You Want to Freeze Liquid Nitrogen?

Most facilities never need to freeze liquid nitrogen, but specialized research and industrial applications sometimes require solid nitrogen. Solid nitrogen has unique properties that liquid nitrogen can’t provide.

Research laboratories use frozen nitrogen for ultra-low temperature experiments that require temperatures at or below -210°C (-346°F). Some advanced materials testing and cryogenic research depends on these extreme conditions.

Some semiconductor manufacturing and metallurgy operations use solid nitrogen for controlled cooling rates during material processing. While liquid nitrogen boils rapidly and can be difficult to control for steady cooling, solid nitrogen sublimates more gradually under controlled conditions, which can provide a steadier cooling effect.

How Do You Freeze Liquid Nitrogen?

The most common way to freeze liquid nitrogen is by placing it in a vacuum chamber and reducing the pressure through vacuum pumping. This process triggers evaporative cooling that lowers the temperature to the freezing point. Compared to complex refrigeration systems like helium or dilution refrigerators, vacuum pumping is much simpler and far more cost-effective.

Most facilities use standard vacuum-insulated dewars, cryogenic storage tanks, and liquid nitrogen freezers because liquid nitrogen at -196°C already meets their cooling needs. These systems are much more cost-effective than freezing equipment, and they require only basic maintenance like checking pressure relief valves and vacuum integrity.

What Happens When Liquid Nitrogen Freezes?

When liquid nitrogen freezes, it becomes a white, snow-like solid that looks similar to crushed ice but is much colder. The solid form is denser than the liquid, so it actually contracts slightly during the freezing process.

Frozen nitrogen behaves differently than liquid nitrogen during handling and storage. It doesn’t flow like liquid and won’t evaporate as quickly, which changes how it transfers cold to materials and equipment.

If solid nitrogen does form accidentally due to equipment malfunction, it will quickly melt back to liquid as temperatures rise above the freezing point. The transition happens fast once the solid warms even slightly.

What Safety Considerations Apply to Solid Nitrogen?

Solid nitrogen requires the same basic personal protective equipment as liquid nitrogen – insulated gloves, eye protection, and proper ventilation – but handling differs because it doesn’t flow like liquid. You need to treat it more like handling extremely cold ice or snow.

The main risk comes from rapid melting when solid nitrogen contacts warmer surfaces or air. This creates sudden nitrogen gas expansion that can displace oxygen in confined spaces faster than liquid nitrogen evaporation.

Unlike liquid nitrogen that you can pour in controlled amounts, solid nitrogen pieces can break apart unpredictably during handling. Use tongs or insulated scoops rather than trying to handle pieces directly, even with protective gloves.

Storage containers for solid nitrogen need better insulation than standard liquid nitrogen dewars – the solid form can create pressure buildup if it melts in sealed containers.

Conclusion

Liquid nitrogen can freeze at -210°C (-346°F), but standard storage systems maintain temperatures around -196°C (-321°F) that keep it in liquid form. Most facilities never encounter solid nitrogen because specialized equipment is required to reach these extreme temperatures.

For the rare applications that do require solid nitrogen, proper handling procedures and adequate ventilation are critical for safe operations.