SU1125443A2 - Air heater - Google Patents

Abstract

AIR SUPPLYER auth. St. No. 802717, characterized in that, in order to improve efficiency by preventing contaminated sulfur oxides from being contaminated, an equalization chamber is additionally installed between the desorption chamber and the air heating chamber, communicating the upper part with the gas outlet section of the material heating chamber. (Lu you ate 4i 4 00

Description

The invention relates to a power system and can be used to heat air and capture oxides of sulfur from the products of combustion in boiler units.

According to the main author. St. № 802717 izves- gene _with an air heater comprising a heating chamber for particulate material and hot gas chamber for heating air with particulate material, the chamber for heating the particulate material is formed in two sections, between which is installed a heat exchanger ¹⁰ flax other heated medium, such as water connected in series along the hot gases with sections of the chamber, and between the chamber for heating bulk material and the chamber for heating air there is a desorption chamber framed by opposite louvres gratings, one of which is in communication with a box for removal of sulfur oxides, and adsorbent is used as bulk material [1]. 20

However, in the known device, the sulfur oxides released in the desorption chamber do not have the required purity, since air from the air box to the desorption chamber is inevitable due to the pressure difference between the air and gas boxes (as a rule, the air pressure is greater than the gas pressure).

The aim of the invention is to increase efficiency by preventing pollution of captured sulfur oxides. thirty

This goal is achieved in that in an air heater containing a chamber for heating bulk material with hot gases and a chamber for heating air with bulk material, where a chamber for heating bulk material is made in two sections, between which a heat exchanger is installed with another heated medium, such as water, connected in series along the hot gases with the chamber sections, and between the chamber for heating the bulk material and the chamber for heating the air there is a desorption chamber framed by the opposite louvred gratings, one of which is connected to the box for removal of sulfur oxides, where adsorbent is used as bulk material, an equalization chamber is additionally installed between the desorption chamber and the chamber for heating air, which communicates with the upper part with the gas outlet section of the bulk heating chamber material.

The drawing shows a schematic diagram of an air heater.

The air heater comprises a chamber for heating bulk material, made in the form of two sections 2 and 3, connected in series along the hot gases, between which a heat exchanger 4 is installed, and a chamber 5 for heating the air. Between the chamber 1 for heating the bulk material and the chamber 5, a desorption chamber 6 is installed, installed in the duct with a pipe 7 for removal of sulfur oxides. Between the desorption chamber 6 and the chamber 5 for heating the air, a sealing chamber 8 is additionally installed, communicated by the upper part with the gas-exhausted portion of the chamber 1 for heating the bulk material. A feeder 9 is located under the chamber 5 for heating the air. An adsorbent is used as bulk material.

The air heater operates as follows.

When feeder 9 is open at a certain angle, the bulk material starts moving and moves in a dense layer in chambers 1, 5, and 6. Gases, when filtering through the layer of section 2, cool and heat the bulk material, and when filtering through the layer of section 3, sulfur oxides are adsorbed (mode adsorption 150 ° C) and some additional cooling of the gases. Cooled and purified gases are released into the atmosphere. Two flows of bulk material - high temperature from section ‘2 and low temperature with adsorbed sulfur oxides from section 3 are combined and mixed with desorption chamber 6.

Due to the mixing and heat transfer between the two different temperature layers in the desorption chamber 6, sulfur oxides are released and removed through the nozzle 7. Then the bulk material is sent to the chamber 5, where it is cooled, giving off heat to the air.

Due to the fact that the equalization chamber 8 is installed between the desorption chamber 6 and the chamber 5 and communicated with the upper part to the gas-output section of the bulk material heating chamber 1, the inevitable air flows, bypassing the desorption chamber 6, are directed to the gas-output section of the chamber 1. This eliminates mixing air into the captured sulfur oxides and thereby ensuring their high concentration and purity.

Claims (1)

AIR HEATER by ed. St. No. 802717, characterized in that, in order to increase efficiency by preventing pollution of the captured sulfur oxides, between the desorption chamber and the chamber for heating the air, an equalizing chamber is additionally connected to the upper part with the gas-output portion of the chamber for heating bulk material. ! 125443