RU134441U1 - INSTALLATION OF ADSORPTION DRYING GASES USING MICROWAVE RADIATION - Google Patents

Abstract

Installation of adsorption drying of gases using microwave radiation, containing two working cylinders filled with adsorbent, valves for switching gas flows, instruments registering humidity at the outlet, compressors for removing wet steam from working cylinders, characterized in that in working cylinders for regenerating adsorbent Magnetrons are introduced into the microwave radiation, and the working cylinders operate alternately when automatically switching operation modes.

Description

This utility model relates to devices for drying gases using microwave radiation and can be used in chemical, metallurgical and other industries.

From the prior art, a gas adsorption drying apparatus [1] is known, comprising two cylindrical adsorbers mounted in parallel, control valves installed in the wet gas supply line in front of the adsorbers and in the dried gas supply line after the adsorbers. The installation is equipped with heaters, the main and additional ejectors, a pump, the output of which is connected to the inputs of the main and additional ejectors. The regeneration of the adsorbent is carried out by a vacuum-thermal method with automatic switching of the operating modes of the adsorbents.

A disadvantage of the known utility model is the complex structure of regeneration of the adsorbent and a sufficiently long regeneration time.

The objective of the proposed utility model is to increase the efficiency of gas drying by introducing magnetrons into the working cylinders to generate the adsorbent with microwave radiation.

This task is achieved due to the fact that the installation of adsorption drying of gases using microwave radiation, contains two working cylinders filled with adsorbent, two generating magnetrons, valves for switching gas flows, instruments for measuring humidity at the outlet, compressors for removing wet steam from the working cylinders.

Moreover, magnetrons are introduced into the working cylinders for regeneration of the adsorbent by means of microwave radiation. In addition, when automatically switching operation modes, the working cylinders operate alternately.

The technical result provided by the given set of features is to increase the efficiency of moisture removal due to the placement of magnetrons generating microwave radiation in the working cylinders.

The utility model is illustrated in FIG. 1, which shows a block diagram of an installation for adsorption drying of gases using microwave radiation, containing two working cylinders 1, a switching valve 2, moisture recording devices 3, a compressor for removing wet steam 4, magnetrons 5, and adsorbent 6.

The device operates as follows.

Initially, the wet gas is fed into the left working cylinder 1, in which moisture is removed from the gas and the adsorbent is saturated (granular zeolite) 6. When the adsorbent is saturated with moisture according to the readings of the moisture register 3, the gas supply switches to the right working cylinder and the magnetron switches on left working cylinder 1. From this moment, the process of regeneration of the adsorbent 6. begins in the left working cylinder 1 and the gas is drained in the right.

To remove wet steam from the working cylinders, a compressor 4 is provided for removing wet steam, which supplies air to the working cylinders through the lower base.

After saturation of the adsorbent 6 in the right working cylinder, the gas supply to the left working cylinder automatically switches off, the magnetron 5 in the left working cylinder 1 is turned off and turned on in the right one, etc.

The source of information:

1. The device adsorption drying of gases Patent of the Russian Federation 2190458, B01D 53/26 (prototype).

Claims (1)

Installation of adsorption drying of gases using microwave radiation, containing two working cylinders filled with adsorbent, valves for switching gas flows, instruments registering humidity at the outlet, compressors for removing wet steam from working cylinders, characterized in that in working cylinders for regenerating adsorbent Magnetrons are introduced into the microwave radiation, and the working cylinders operate alternately when automatically switching operation modes.

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