SU1680774A1 - Method for drying and warming up air heater having filled nozzle - Google Patents

Abstract

The invention relates to the heating blast of blast furnaces, in particular to methods of drying and heating of hot stoves with bulk, such as ball, nozzle, and can be used in ferrous metallurgy and energy. The purpose of the invention is to reduce the heating time of the air heater and increase its durability. The method is carried out as follows. 80-97% of the total consumption of the heat-transfer fluid is discharged from the dome space, the nozzle is mined, and the rest is fed through the dome space into the air inlet, and then discharged through the sub-air space to the smoke flue. 1 il.

Description

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The invention relates to the heating blast of blast furnaces, in particular to methods of drying and heating of hot stoves with bulk, such as ball, nozzle, and can be used in ferrous metallurgy and energy.

The purpose of the invention is to reduce the heating time of the air heater and increase its durability.

The drawing shows the air heater with a bulk nozzle, on which it is possible to implement the proposed method of drying and heating, a general view.

The method is carried out as follows.

When drying and heating the air heater with a bulk nozzle, the heating coolant is supplied, for example, from the burner 1 to the dome space 2. Part of the heating coolant (80-97% of its total amount with a natural gas flow rate of 100-300 m3 / h and air 2000-5000 m3 / h) is diverted from the domed space either through fitting 3 and pipeline 4 to blow hot and candle 5, or through a hatch in the dome. The rest (3/20%) from the dome space 2 is fed to the nozzle 6, the sub-landing space 7 and through the smoke pipes 8 or through the bypass line 9 with a regulating valve 10 is diverted to the smoke hole 1-1. The amount of heating coolant passing through the nozzle 6 is controlled by valve 10 on the bypass line 9.

The proportion of coolant discharged from under the dome (80-97%) depends on the design of the apparatus, its heat output, the set schedule for drying and heating, etc. The filling of the nozzle and the lining of the walls, especially their lower parts, when drying and heating the apparatus heats up too quickly compared to the dome, therefore, coos 00 is needed

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to shrink the heating coolant flow through the nozzle, leaving its entry into the dome space sufficient to ensure the heating rate and uniform distribution of the dome refractory temperatures. The excess heat carrier must be removed from under the dome, bypassing the nozzle. The share of coolant discharged from under the dome, more than 97%, does not provide the necessary heating rate of the apparatus. The removal of the coolant from the air heater in an amount of less than 80% leads to a rapid heating of the nozzle and a small heating of the dome masonry, which also does not provide the necessary rate of heating of the apparatus according to the schedule.

The time of drying and heating of the lining and the nozzle of the air heater is determined according to a special schedule, and depends on the design of the lining and the characteristics of the refractory materials used for the lining.

For example, the heating of apparatuses laid out in the high-temperature zone of mullite-corundum products is carried out with the following mode of raising the temperature of the top of the nozzle (dome temperature):

temperature rise from 200 to 500 ° С at a rate of 5 deg / h for at least 60 h;

holding at 500 ° C for 8 hours;

temperature rise from 500 to 700 ° С at a rate of 3 deg / h for at least 67 h;

holding at 700 ° C for 3 hours;

temperature rise from 700 to 1000 ° С at a rate of 4 deg / h for at least 75 h.

Further heating of the air heater is conducted at a rate of 4 deg / h to the design temperature, and the smoke temperature should not exceed 350-400 ° С, in

if it is exceeded, the apparatus is blown off, i.e. serves cold blast (cooling coolant) through the nozzle from the bottom up.

This method of drying and heating the air heater with a bulk nozzle accelerates the process of drying and heating from about 45 to 20-30 days, provides an increase in the durability of the heater lining by 10-20%, allows for drying and heating according to a schedule that does not have

or restrictions on the rate of change of temperature. In addition, according to the proposed method, it is possible simultaneously with the nozzle and the dome of the apparatus to dry and heat the hot air duct.

to blow.

Claims (1)

The invention of the method of drying and heating the air heater with a bulk nozzle, mainly ball, including the supply heat carrier through the domed space and the nozzle and exhaust through the sub-nozzle space in the flue gas, warming up to the required temperatures of the upper layer of the nozzle and the dome, and the lower layer - up to permissible temperatures, characterized in that, in order to reduce the heating time of the air heater and increase its durability, 80-97% of the total consumption of the heating coolant retracted from the dome space, mine nozzle. / 777, ,