SU107655A1 - A cupola working on hot air - Google Patents

Description

Known cupola, working on the hot blast.

The described invention differs from the known ones in that, for the purpose of flameless afterburning of cupola gases, in the air heater, under the lower part of it is hindered, the afterburner is attached to the gas cleaning chamber.

The process of melting in the proposed cupola is carried out as follows.

Fibrous gases (see drawing). The temperature of 650-800 ° C is diverted from the niaxTbi cupola / above the melting zone and through the lined channels 2 enters the cyclone 3, where coarse gas is cleaned from the cupola carried away (60-75%) . After the cyclone, the gases enter the afterburner 4.

The design of the afterburner provides for the possibility of controlling the temperature of the gases before they enter the air heater.

At 800–850 ° C, the fume gases enter the tubes 5 of the air heaters of the countercurrent system, where the air is heated, then go to the tuyeres through line 6, to a temperature of 500. Then, the gases diluted with air to a temperature of 300 enter the centrifugal scrubber 7, where the secondary cleaning gases from dust, and using the suction pump 8, they are released into the atmosphere.

Heated in an air preheater, in order to increase the temperature of the gases, air is supplied to the cupola. This leads to an increase in overheating of the iron, which makes it possible to obtain a liquid metal on the chute of the cupola with a temperature of up to 1500 °.

The design of the cupola takes three rows of tuyeres.

The distance between the axes of the rows cooled by the tuyere is smaller than that of the normalized cupolas operating on the cold blast, due to the reduction of the combustion zone in height when conducting smelting on the toplash.

Mine cupola has a cylindrical shape. The cupola itself is provided with a water jacket, welded to its casing, with a ring of the melting and overheating zone of the cast iron. The cavity between the casing and the ring is filled with water.

The design of the cupola provides for the possibility of varying the selection height of the cupola gases over a wide range.

During normal operation of the cupola, 15% of the top gas flows into the pipe, blocked by a butterfly valve, and the rest is directed to a centrifugal scrubber for cleaning.

The cupola is equipped with an external air heater of a regenerative type of countercurrent system. Air heater tubes have the possibility of independent thermal elongation. For this purpose, they are equipped with compression rings, the cylinder for which is the top plate of the air heater. In the bottom plate of the tube are fixed by flaring.

For the first stage of gas cleaning from dust, in front of the air heater are installed in parallel

included cyclones fzterovannye inside.

A centrifugal scrubber is installed for the second stage of gas cleaning after the air preheater.

For heating, blowing in the air heater prior to starting the cupola and supporting the combustion of carbon monoxide at the beginning of operation, the afterburner chamber is supplied with two flameless burners.

Subject invention

A hot blister with waste gas extraction prior to the smelting plant is equipped with a separate air heater, which, in order to have a flameless burnout of the cupola gases in the air heater, is placed under the lower part of the afterburner chamber in connection with the gas cleaning chamber.