SU1626061A1 - Apparatus for producing liquefied nitrogen - Google Patents

Abstract

The invention relates to a cryogenic technique and can be used in various national households consuming liquid nitrogen, for example, chemical industry, agriculture, and medicine. In an installation for producing liquid nitrogen with a cryogenic gas machine (KGM), an expansion pulsation device (RPU) is installed to increase its capacity for liquid nitrogen without increasing the power consumption before entering the KGM. The installation consists of a compressor 1 driven by an engine 2, a filter 3, a compressed air receiver 4, an air dryer 5, oil separators 6, 7 and 8, an air receiver 9, adsorption reactors 10 and 11, a receiver 12 for nitrogen, a silencer 13, a pulsation expansion device 14 , KGM 15, refrigerator 16, line 17 for supplying air, line 18 for discharging oxygen and line 19 for discharging liquid nitrogen. 1 il. Ј About N5 About About About

Description

The invention relates to a cryogenic technique and can be used in various sectors of the national economy that consume liquid nitrogen, for example, chemical industry, medicine.

The aim of the invention is to increase the capacity of the plant for liquid nitrogen without increasing the power consumption.

The drawing shows a plant for producing liquid nitrogen.

The installation consists of compressor 1, engine 2, filter 3 at the entrance to compressor 1, compressed air receiver 4, air dryer 5, oil separators 6-8, regulating air receiver 9, adsorption reactors 10 and 11, nitrogen receiver 12, silencer 13 , an expansion pulsation device 14, a cryogenic gas machine 15, a refrigerator 16, an air supply line 17, an oxygen removal line 18 and a liquid nitrogen removal line 19.

An apparatus for producing liquid nitrogen works as follows.

Atmospheric air, the passage of the filter 3, is compressed by compressor 1 driven by engine 2. Next, the compressed air passes through the cooler 16, where the heat of compression is removed, and enters the receiver 4 and then into the air dryer 5 and oil separators 6-8, where the air is dried and cleaned oils. A portion of the air is directed to the air receiver 9 to drive the pneumatic automation. The dried and purified air enters the alternately switching adsorption reactors 10 and 11, where oxygen is adsorbed, and nitrogen accumulates in the receiver 12. The adsorbed oxygen is vented to the atmosphere through the silencer 13 and the oxygen removal line 18 alternately in the adsorption reactors 10 and 11. Nitrogen gas accumulated in receiver 12

at a pressure of 6-10 MPa, it is directed to an expansion pulsation device 14, in which it expands to a pressure close to atmospheric, and is cooled. After that, the gaseous cooled nitrogen is directed to liquefaction into a cryogenic gas machine 15, where it is liquefied and fed to the consumer via line 19 of the outlet for liquid nitrogen.

Thus, the plant capacity is increased by 1.3 times.

Claims (1)

An apparatus for producing liquid nitrogen comprising a circuit c in series installed by a compressor, an adsorption reactor, a nitrogen receiver and a cryogenic gas machine with a cold-head heat exchanger, characterized in that, in order to increase productivity, the installation further comprises a pulsation device included in the circuit between the nitrogen-nitrogen receiver and the cold head heat exchanger of the cryogenic gas machine.