SU598935A1 - Regenerative gas heater - Google Patents

Description

one

The invention relates to the metallurgical industry and can be used when heating a gas to temperatures higher than the temperature of thermal decomposition.

The closest to the proposed invention to the technical essence and the long-lasting result is a regenerator, as a nozzle in which is used shashsovy zsapsa fib

This regenerator consists of a remote camera with a diameter of 0.5 m, covered with a layer of balls (outside the chamber is lined with refractories), kayals: one () for flue gas and cold air, another (upper) for removing hot air and supplying hot smoke

The generator works as follows. Initially, the nozzle is blown with hot flue gases from the top to the bottom. Then, in the air period, air is blown through the nozzle from the bottom upwards, while this heats up.

The disadvantage of such a device is a large temperature unevenness over the height of the nozzle (approximately 900 ° C) and contamination of the nozzle, as a result of which the useful time and reliability of the installation is reduced. In addition, the known regenerative heater is intended only for heating air.

The purpose of the invention is to improve the uniformity of heating, increase the duration of useful work and increase reliability; regenerator.

This is achieved by the fact that a collector is installed in the regenerator, equipped with a supply pipe and located 1 mi along the nozzle of the pipe with holes, in addition, the pipe of the collector is equipped with a tee.

FIG. 1 shows the proposed regenerator 1p (longitudinal section; Fig. 2 shows section A-A in Fig. 1.

The generator has a casing 1 with wall lining 2, between the lining 2 and casing 1 heat insulating layers 3 are located. In the lower part of the regenerator there is a sub-nozzle 4 on which nozzle 5 is located. Inside the lined casing 1 there is a collector 6 equipped with pipes 7 with holes Shvm connection with pipe 8, at the end of which a tee 9 is installed.

The regenerator works as follows.

To heat the nozzle 5, a gas combustion product is passed through it. In order to improve the uniformity of heating, a part of the smoke is directed through the collector 6 through pipes 7. Since the flow resistance is a hole. "." "V

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 in pipes there is less hydraulic resistance to smoke in the nozzle, the smoke that goes through the pipes will reach the lower layers of the nozzle faster than the smoke that goes through the nozzle and will have a higher temperature. When selecting the optimal smoke consumption through the pipes, the nozzle will warm more evenly, and the temperature of the leaving smoke will increase slightly. When a gas containing hydrocarbons is heated to temperatures higher than the thermal decomposition temperature, soot is formed, which is carbon black (it is stored in the packing, thereby reducing the gas flow area and increasing the hydraulic resistance. In this connection, an oxidizer is fed to the regenerator (7) oxygen or hot air) for burning the product of thermally decomposed soot.

In the flue period, it is necessary to pass smoke through the collector-pipe system to remove the oxidizer from it. Smoke and oxidizer can be supplied through manifold 6 together. The collector and pipes should be made of heat-resistant material.

598935

Claims (2)

1.Regenerative gas heater containing casing. the perimeter of the nozzle and having holes 2. Gas heater according to claim 1, characterized in that the manifold manifold is equipped with a tee. Sources of information taken into account in the examination: 1. Investigation of a regenerative heat exchanger with a ball nozzle for heating air up to 1000 ° C. Report of VNIIMT-N 2073, Sverdlovsk, 1973. Fi.2