Linde’s Method of Liquefaction of Gases

Linde’s Method of Liquefaction of Gases

Linde's Method of Liquefaction of Gases

Linde's method is based on the principle known as Joule-Thomson effect. According to this principle, when a gas under high pressure is allowed to expand into a region of low pressure, its temperature falls. The gas does not do any external work but the kinetic energy and hence, the temperature of the gas is lowered because of the work done in separating the molecules against their attractive intermolecular forces. A precaution is required in this process. To have a cooling effect, a gas is to be brought below a characteristic temperature, known as inversion temperature, before allowing it to expand. If the temperature of the gas is above its inversion temperature, Joule-Thomson expansion results in heating. A schematic diagram of the equipment used in Linde's method is shown below.

Linde’s Method of Liquefaction of Gases

The gas at a temperature lower than its inversion temperature is compressed using a compressor. This gas is then allowed to expand through a valve which, results in its cooling. The cold gas is used in cooling the high pressure gas in the heat exchanger and is recirculated through the compressor. It gets cooled still further, as it expands. The cycle continues till the liquefied gas drops from the throttle.


Claude's Method of Liquefaction of Gases

Faraday's Method of Liquefaction of Gases


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