SU1416504A1 - Coke oven battery - Google Patents

Abstract

The invention relates to coke production, in particular to coke oven designs. The aim of the invention is to improve the quality of coke, increase the productivity of coke ovens and reduce the consumption of heating gas by increasing the heating uniformity of coke ovens. The coke oven battery with removable hearth 2 contains heating lines, which are divided into horizontal heating channels 8 vertical partitions 6, 7, which are a continuation of the dividing wall between the regenerate with s at the outlet of each horizontal section of the regenerator in a vertical prefabricated distributor duct installed two vertical lattice superimposed on each other so that their openings coincide. One lattice is fixed, and the other is fixed

Description

with the possibility of horizontal mixing of the fixed body stationary along the nx plane, which allows changing the living section of the vertical gas distribution

Lattice grilles over a wide range and accordingly quickly change the air flow in any heating channel without additional adjusting devices. 4 il.

one

This invention relates to coke production, in particular to coke oven design

The aim of the invention is to improve the quality of coke, increase the productivity of coke ovens and reduce the consumption of heating gas due to uniform heating of the coke oven chambers.

Figure 1 shows the battery of coke ovens, a General view, a longitudinal section; figure 2 - heated wall, cross section; on fig.Z - section aa in figure 2; in FIG. A, node 1 in FIG. 2.

The coke oven battery includes coke chambers 1, equipped with removable hearths 2 and sinks 3, connected by knees 4 to a gas collector 5 о. The heating walls are divided by partitions 6 and 7 into horizontal heating channels 8. Vertical partitions 7 are arranged along the longitudinal axis of the walls and each wall is divided two isolated poluprostroenka On the partitions 7 are the burners 9, connected by two snook channels 10. with the heating gas pipelines 11. The regenerators are divided by walls 12 and partitions 13 into horizontal sections 14, in which rebars 15 and 16 are installed, superimposed on each other so that their holes coincide. The lattice 15 is fixed and the lattice 16 is installed in the slots of the horizontal partitions 13 with the possibility of horizontal displacement relative to the fixed lattice 15 along the plane of their contact. The horizontal sections 14 of one regenerator are connected by a vertical collecting and distributing channel 17 to the gas-air valve 18, and the latter is connected with borah 19. Heating gas pipelines 11 and devices for controlling the flow of gas and air in each heating canape are located at service sites 20,

Bata re works as follows.

Coal pie delivered in a special container with a tamper-

This unit is pushed into the coke oven chamber 1 from below on the removable hearth 2 and fixed in the working position by special devices. Under the action of high temperature, thermal decomposition of coal occurs with the formation of coke. The heat required for the coking process is generated by burning in the heating channels 8 the combustible gas supplied

through pipelines 11 through duck ducts 10 to the burners 9. Air enters the heating channels through gas-air valves 18, vertical collecting and distribution channels 17,

lattices 15 and 16 and horizontal

regenerator sections 14, where it is heated by the heat accumulated by the nozzle.

The heated air moves along.

heating channels and is mixed with combustible gas supplied to the burners 9. Thanks to the stepped supply of gas through the burners located at different distances from the beginning of

expansion channels along the length of the latter.

In all heating channels of one heating semi-simple gas, gases move in one direction, and in all heating channels of an adjacent semi-simple space - in the opposite direction. Due to heat transfer, the temperature along the partition wall of the piers 7 is further equalized.

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Combustion products from the opposite end of the heating channels in the directly adjacent horizontal sections 14 of the regenerators, where heat is transferred to the nozzle, then flow through the grids 15 and 16, the vertical assembled distribution channels 17, gas-air valves 18, and the boron 19 into the chimney .

The uniformity of heating of the coking chambers is achieved by changing the amount of air supplied to each horizontal heating channel and the amount of gas supplied to each burner,

The air flow rate in each heating duct 8 is controlled by displacing the movable grill 16 with respect to the fixed grill 15, as a result of which the holes in the dry are overlapped. The degree of overlap required is determined by the oxygen concentration in the combustion products, which should be 2.5% o

The supply of heating gas to each burner 9 is varied with the help of taps installed on pipelines 11 connected to duzovye channels 10, made in walls 12 and partitions 7 o

Air and gas flow control in heating ducts is made from service platforms 20o.

Volatile coking products formed in the coking chambers 1 are discharged through the sewers 3, the knee A and the gas collectors 5, where they are cooled with water and transferred for further processing.

After the coking process is completed, the coke cake is lowered onto the removable floor 2 in a special container. mounted on an electric locomotive, and transported to a quencher.

The required temperature distribution in height and length of the coke oven chambers is achieved by varying the amount of gas and air supplied to each horizontal heating channel. At the same time, gas flow control in each heating channel and each burner is carried out with the help of Cranes on pipelines connected to the duct channels, and air by partially blocking the openings of the gratings in the corresponding horizon of the regenerator shnoy section with a horizontal displacement of the moving grate relative to

fixed along the plane of their OOP

The degree of overlap of the gratings is chosen in such a way as to ensure in the heating channel an excess air ratio

0 equal to 1.3-1.4o. The regulation of the air and gas flow rates in the heating channels is carried out during heating and starting of the battery, as well as during operation until reaching

5 uniform temperature distribution along the height and length of the heating walls. In addition, the presence of vertical X partitions in the heating walls provides

0 an additional increase in the uniformity of heating of the coke oven chambers in length due to the fact that in all odd heating semi-simplicity gases move in one direction

5 scientific research institutes, and in all 1 het - in the opposite. Due to the heat exchange through a partition dividing adjacent semi-prostoms, the temperatures along their length are equalized.

0

Such a design of the heating system provides a hydraulic resistance of about 80–100 Pa (15–20%). By reducing the temperature difference between the top and bottom of the furnaces by 100 K, the coking period can be reduced by about 30 minutes, which corresponds to an increase in battery performance

d by 2.5% and reducing the consumption of heating gas by 2.5%. At the same time, improving the heating uniformity improves the strength of the coke, namely, increasing the fraction M of the M25 and reducing the indicator of the heat emission M1 O,

In addition, the living section of vertical gas distribution grids can be varied over a wide range by displacing the movable grid relative to the fixed one in the plane of their contact, which allows -. It does not promptly change the air flow rate in any heating channel without any additional adjusting devices. Vertical partitions dividing the heating walls along the longitudinal axis into two half-walls with opposite direction.

five

0

five

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by the movement of gases, radiate heat flux perpendicular to the walls of the coke oven chambers, which increases the efficiency of heat exchange between them and facilitates temperature equalization along the length of the heating walls,

Claims (1)

Invention Formula The coke oven battery installed on the columns includes coking chambers with removable hearths, heating piers with horizontal heating channels, regenerators with dividing walls and partitions, dividing them into horizontal sections according to the number of heating channels, and vertical collecting and distributing channels located on. both sides of the coke oven chambers, characterized in that, in order to increase the production 65046 performance and reduce the consumption of heating gas, as well as The quality of coke is increased by increasing the uniformity of heating of the coke ovens; each heating pier is provided with a vertical partition, installed along the longitudinal axis of the pier, coaxially and rigidly with the separator wall of the regenerators, and at the outlet of each horizontal section of the regenerator, two vertical grids are installed in the vertical channel , 15 are placed one above the other, while one of them is fixed motionless, and the other is placed with the possibility of horizontal mixing with respect to the fixed grid along the 20 plane of their contact, and the grids are installed between the horizontal section of the regenerator and the vertical collecting channel Srig.G. ( FIG. C. 9 7