RU2002184C1 - Annular furnace for kilning carbon blanks - Google Patents

Description

to connect the chamber to the body of the furnace, deposits of tar would fall out, which would necessitate the control of blockage and periodic cleaning of the channel. In addition, the presence of such a channel due to a change in the hydraulic resistance of the filter, for example, due to its clogging or integrity violation, would lead to a significant delay in the detection of such violations and, therefore, would create an obstacle to their quick elimination.

The drawing shows a diagram of a furnace with a afterburner and a catalyst.

The furnace is a series-connected working chambers 1 with gas burner devices 2, connected through blocks 3 to a longitudinal collecting bore 4, connected to a smoke exhauster 5 through a collecting transverse bore 6. The transverse bore 6 is connected via a view valve 7 to the combustion chamber 8. There is a gas burner 2 in the path of the exhaust gases, and behind it are catalytic filters 9 afterburning based on mullite-siliceous material, then along the exhaust gases of the exhaust gas there is an outlet bore 10, valve 11, smoke 5 and light cha

12. In the event of an accident, there are block 3 and valves 7, 11 for supplying exhaust gas to the electrostatic precipitator

13, bypassing the combustion chamber, through the exhaust fan into the pipe 4.

A multi-chamber furnace for burning carbon blanks operates as follows.

Natural gas, burned in the burners of the chambers 1, which are heated in the fire system, passes these chambers sequentially through the vertical muffle channels in the walls of the cassettes into which the chambers are divided and heat the carbon blanks in the cassettes. Resin aerosols released from carbon blanks

substances, the passage with a gas stream through a series of chambers 1 and connecting channels, enter through a block 3 into a longitudinal collecting bore 4, then through a transverse bore 6 into a combustion chamber 8, where aerosols are resinous

substances are partially burned in the flame of the burner 2 and then, passing through the filter 9, are oxidized on the surface of the mullite-siliceous material. The purified gases enter the outlet bore 10 and

through a smoke exhauster 5 they are discharged into the candle 12. A heat exchanger 15 is installed to cool the exhaust gases.

Thus, the proposed design of the annular furnace simplifies the maintenance of a multi-chamber kiln operating on two to three fire systems, and a single hydraulic mode for the fire and filter systems in both manual and automatic control.

(56) Chalykh E.F. Electrode firing. M .: Metallurgists, 1981, p. 66-67.

USSR copyright certificate No. 1621664, cl. F 27 In 13/02, 1991.

Claims (1)

The claims RING FURNACE FOR CARBON BURNING FIRING, containing working chambers connected in series with gas burners, connected to a collection hog connected to a smoke exhauster, filters for catalytic afterburning of organic components and carbon monoxide, characterized in that it is provided with a placed t 40 after a collection hog in front of the smoke exhaust, an afterburner with burners located in it, and filters for catalytic afterburning of organic components and carbon monoxide are installed in the afterburner behind 45 burner devices along the path of the flue gas. P about 4