SU1539452A2 - Installation for recovering the heat of hot gases - Google Patents

Abstract

The invention relates to a power system and can be used to recover heat from the flue gases of industrial furnaces. The goal is to increase efficiency by increasing the degree of heat utilization of combustion products. The source 1 of the heating gases is connected to the flue 19 through the pyrolysis chamber 9, equipped with a make-up line 11 and irrigator 10, heating path 13 of the surface degasser 12, vertical flue duct 2 equipped with one heat exchanger 4, the lower irrigator 5 and the moisture collector placed below one another. 6, and the heating path 15 of the condenser 14 provided with a condensate collector 16. The moisture collector 6 of the vertical gas flue 2 is connected to the sprinklers 3 and 5 to form closed circulation circuits 7 and is connected to the drain pipe 8 with the sprinkler 10 of the pyrolysis chamber 9, and the condensate condenser 16 of the condenser 14 is connected to the heat exchanger 4 through the heated path 17 of the surface degasser 12, connected by a vapor line 18 to the flue duct 19. The condenser 14 and the surface degasser 12 provide additional cooling of the gases and a greater amount of clean condensate. 1 Il.

Description

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The invention relates to a power system, namely to the use of secondary energy resources, can be used to recover heat from exhaust gases from industrial furnaces and is an improvement of the invention according to the author. Ev, No. 13339 6.

The aim of the invention is to increase efficiency by increasing the degree of utilization of the heat of combustion products.

The drawing shows a schematic diagram of the installation.

The installation for utilization of heat of hot gases contains a vertical gas duct 2 connected to the source 1 of heating gases, one heat exchanger 4 placed one below the other, one heat exchanger 4, a bottom irrigator 5 and a moisture collector 6 connected to the sprinklers 3 and 5 with the formation of closed circulators circuits 7 and equipped with a drain pipe 8, a camera-pyrolyzer 9 with an irrigator 10 communicated with a make-up line 11, and a surface degasser 12 with a heating path 13, connected in series through the heating gases before the vertical gas duct 2, as well as a condenser 14 with a heating path 15 and a condensate collector 16, connected via gases after the vertical gas flue 2, the condensate collector 16 of the condenser 14 being connected to the heat exchanger 4 through the heated path 17 of the surface degasser 12, connected by a vapor line 18 to the gas flue 19 after the condenser, and the drain pipe 8 of the water trap 6 is connected to the sprinkler 10 of the pyrolyzer chamber 9. A feed line 20 is connected to the circuits 7.

Installation for heat recovery of hot gases works as follows.

The high-temperature gases from source 1 are fed to the pyrolysis chamber 9, and heat is transferred to the water coming from the moisture collector 6, moistened

12, enter the vertical gas flue

2, where water, sprayed by the irrigator 5, is gradually raised, to the water of the heat exchanger 4, on the pipes of which the water vapor condenses, and to the water of the irrigator

3, which, when heated, washes the final section of the heat exchanger 4 and washes away the precipitated on its pipes

ten

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contamination. The contaminated water is collected at the bottom of the water collection chamber 6 and is fed to the pyrolyzer chamber 9, where water is mixed with hot gases and the pyrolysis of harmful impurities. The water supply to the sprinkler 3 and 5 is regulated by the make-up line 20 and partly water can be taken from the water collection unit 6. Wet gases after the vertical duct 2 flow into the condenser 14, where heat is transferred to the coolant (for example, cold air) and water is condensed from them surface degasser 12, where due to the heat of the moistened gas coming from the pyrolyzer chamber 9,

gases and pure condensate enters the heat exchanger 4, heats up and can be directed to the hot water supply. The gases released in the surface degasser 12 are directed to the flue 19 behind the condenser 14.

As a result of the use of condenser 14 and surface degasser 12, gases are additionally cooled and the plant produces clean condensate, which can be used for hot water supply or as feed water for the boiler room. The resulting condensate can also be directed to feed the installation itself, which eliminates external consumption, and under certain conditions the installation scheme becomes closed, since up to 18% of water vapor can be contained in the combustion products.

Claims (1)

Invention Formula Installation for utilization of heat of hot gases by aut. St. No. 1333U46, characterized in that, in order to increase efficiency by increasing the degree of heat utilization of the combustion products, it is additionally equipped with a surface degasser and a condenser with a condensate collector connected to the heating ducts through the gases, respectively, and the condenser condenser connected to the heat exchanger through the heated path of the surface degasser, communicated by a vapor line with the flue after the condenser.