Conversion of liquid gas into different units of measurement

Conversion of liquid nitrogen into different units

We have prepared a table for you to help you know the amount of gas in cubic meters or kilograms.

Kilograms (kg) Normal cubic meter (nm3) Liters Galons ft3
1.0 0.799721 1.236858 0.326779 0.282587
1.250420 1.0 1.546592 0.408611 0.353357
0.808500 0.646583 1.0 0.264201 0.228475
3.060173 2.447317 3.785 1.0 0.864776
3.538689 2.83 4.376855 1.156369 1.0

kg

nm3

liters

galon

ft3





Conversion of liquid oxygen into different units

We have prepared a table for you to help you know the amount of gas in cubic meters or kilograms.

Kilograms (kg) Normal cubic meter (nm3) Liters Galons ft3
1.0 0.699775 0.876292 0.231517 0.247270
1.429030 1.0 1.252248 0.330845 0.353357
1.141172 0.798564 1.0 0.264201 0.282178
4.319336 3.022564 3.785 1.0 1.068044
4.044157 2.83 3.543862 0.936291 1.0

kg

nm3

liters

galon

ft3





Conversion nm3/hour into nm3/min and l/min
nm3/hour
nm3/min
l/min





Liquid nitrogen

Liquid nitrogen is the most commonly used cryogenic liquid. It consists of pure nitrogen molecules in a liquid state. Liquid nitrogen is produced by liquefying atmospheric air or gaseous nitrogen.

At normal pressure, nitrogen becomes liquid at temperatures below -195.8 C and solid at -209.86 C.

Liquid nitrogen is used in a variety of industrial applications, in cooking and for scientific research. Applications of liquid nitrogen:

  • Freezing and transportation of food products;
  • Cryopreservation of biological samples such as sperm, eggs and animal genetic samples;
  • Use as a coolant for superconductors, vacuum pumps and other materials and equipment;
  • Protection of materials from exposure to oxygen;
  • Fast freezing of water or pipes, allowing you to work with them when taps are not available;
  • A source of nitrogen gas;
  • Molecular Gastronomy;
  • Cooling of materials to facilitate machining or to protect against breakage;
  • Science projects.


Liquid Oxygen

Liquid oxygen in the gas industry is a liquid form of molecular oxygen. Industrial production of liquid oxygen is based on fractional distillation of air, in which it is liquefied to a liquid aggregate state and then the temperature is raised. The components of the air are evaporated one by one as the boiling point rises.

Oxygen becomes liquid at -218.79 C at normal pressure and solid at -182.96 C.

Liquid oxygen is used as a liquid fuel oxidizer in rocket propulsion systems and missiles. Oxygen is widely used in the metallurgical industry for metal cutting, welding, quenching, purification and melting.

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