SU1190161A1 - Air separation plant - Google Patents

Abstract

INSTALLING THE AIR SEPARATION, containing an air pre-cooling unit, an air purification unit as a group of adsorbers with a collector system, a heat exchanger unit with nitrogen and oxygen outlets, a turboexpander unit, and a rectification unit, in order to reduce energy costs by simultaneously in adsorbers of adsorption, heating, desorption and cooling modes, the nitrogen outlet pipe of the heat exchanger unit is equipped with a gas blower ensuring movement of the flow along two parallel bound in with the system reservoir group adsorbers pipelines, one of which is placed a cooling unit coupled to the conduit exit of oxygen heat exchanger unit and the other - a heating unit associated with the group of adsorbers collector system and the heater.

Description

The invention relates to the chemical industry, to the field of low-temperature gas separation.

A known installation of low-temperature separation of air, containing a pre-cooling unit for air, an air purification unit in the form of a group of adsorbers with a collector system, a heat exchanger unit with pipelines for the output of nitrogen and oxygen, a turbine expander unit and a rectification unit. In this installation, the adsorbers are regenerated in such a way that the heating, desorption and cooling processes are carried out sequentially in time, one after the other. The passage of the regenerating gas through the adsorbers is ensured by the pressure in the rectification unit [1].

The disadvantage of this installation is the high energy consumption for the regeneration of the adsorbent, since it does not ensure the simultaneous flow of adsorption, heating, desorption and cooling modes in the adsorbers. In addition, increased pressure in the rectification unit also reduces the efficiency of the installation.

The purpose of the invention is to reduce energy consumption by ensuring the simultaneous occurrence of adsorption, heating, desorption and cooling modes in adsorbers.

This goal is achieved by the fact that in an air separation unit containing an air pre-cooling unit, an air purification unit in the form of a group of adsorbers with a collector system, a heat exchanger unit with nitrogen and oxygen exit pipelines, a turbine expander unit and a rectification unit, a nitrogen outlet pipe of a heat exchanger block is equipped with a gas blower providing nitrogen movement through two parallel pipelines connected to the system of collectors of the adsorber group, one of which contains a cooling unit, is connected first heat exchanger unit with an oxygen outlet pipe and the other - a heating block associated with the group of adsorbers collector system and the heater.

The drawing shows a diagram of the installation of air separation.

The installation comprises a unit 1 for pre-cooling the air, connected to the unit 2 for air purification in the form of a group of adsorbers with a collector system. Block 3 of heat exchangers with pipelines for the output of nitrogen and oxygen and block 4 of turbine expanders are installed in front of rectification block 5 in the stream of purified air. The nitrogen outlet pipe of the heat exchanger unit 3 ₅ is equipped with a gas blower 6, which is connected by two parallel pipelines to the collector system of the group of adsorbers of the air purification unit 2. On one of these pipelines there is a cooling unit 7, connected to the oxygen output pipeline Yu of the heat exchanger unit 3, and on the other, a heating unit 8, connected to the collector system of the group of adsorbers of the air purification unit 2, and a heater 9. On the regeneration gas pipeline before the gas blower 6 refrigerator ¹³ nickname 10 is installed.

Installation of air separation works as follows.

Clean air enters the air pre-cooling unit 1, from which 20 is directed to the adsorbers of the air purification unit 2, operating in the adsorption mode. The air purified from impurities passes through block 3 of heat exchangers, block 4 of turbo-detapders and is sent for separation to block 5 of rectification. Nitrogen from the rectification unit 5 ²⁵ passes the heat exchanger block 3, a gas blower 6, in which it is compressed to the required pressure and divided into two parallel flows. One stream passes through the heating unit 8 with the heater 9 and enters the adsorbers of the air purification unit 2, operating in the heating and desorption modes.

Hot nitrogen after the air purification unit 2 enters the heating unit 8, after which it is discharged into the atmosphere or is given through the refrigerator 10 again to the air purification unit ₃₅ . The second stream of nitrogen from the gas blower 6 is directed through the cooling unit 7 to the adsorbers of the air purification unit 2 operating in cooling mode. In the cooling unit 7, additional nitrogen cooling is ensured by the flow of oxygen from the heat exchanger unit 3. After passing the adsorbers of the air purification unit 2, this nitrogen stream can be sent to the refrigerator 10 or discharged into the atmosphere.

⁴⁵ Ensuring the simultaneous adsorption, heating, desorption and cooling processes in the adsorbers of the air purification unit 2, the use of a gas blower 6, a cooling unit 7 and a heating unit 8 of pos. ₅₀ can reduce energy consumption in an air separation unit.

Claims (1)

AIR SEPARATION INSTALLATION, comprising an air pre-cooling unit, an air purification unit in the form of a group of adsorbers with a collector system, a heat exchanger unit with pipelines — nitrogen and oxygen outlets, a turbine expander unit and a rectification unit, characterized in that, in order to reduce energy consumption by simultaneously providing in the adsorbers of the adsorption, heating, desorption and cooling modes, the nitrogen outlet pipe of the heat exchanger block is equipped with a gas blower that provides nitrogen movement in two parallel connections pipelines connected to the system of collectors of the adsorber group, on one of which there is a cooling unit connected to the oxygen output pipeline of the heat exchanger unit, and on the other, a heating unit connected to the collector system of the adsorber group, and a heater.