SU1057759A1 - Continuous furnace - Google Patents

Abstract

I. METHODOLOGICAL FURNACE, containing a working chamber with zones of upper and lower heating and clamping in // // 7/7 / 7У / 777. the length of the furnace between the zones, the vertical chimney duct and the partition installed in front of it, characterized in that. in order to improve the heat exchange conditions and increase the efficiency of heat utilization of the smoke exhaust gases, it is equipped with a channel installed above the smoke exhaust channels at the lower base of the zone, and the partition is placed on the arch and has a hole in its lower part, while the height of the partitions is equal to the height difference The working chamber is in the first zone along the movement of the metal in the working chamber in the area of the clamp. 2. A furnace according to claim 1, characterized in that the flow area of the openings in the partition is 10-20% of a sectional working pressure section.

Description

This invention relates to nepFiofi meta; Lurgia and is intended to heat the megagall before rolling.

Known methodical furnace, including the zones of the upper and lower heating, the clamps at the end of each zone and the vertical channel at the end of the furnace for exhaust smoke 1.

The disadvantage of these furnaces is the uneven distribution of pressure along the length and height of the working space, which simultaneously leads to the intake of atmospheric air and the ejection of combustion products. Under the action of vacuum in the vertical channel created by the chimney, the flue gases at the end of the furnace are removed predominantly through the lower part of the working space, which reduces the use of their heat in the furnace's methodical zone.

Closest to the present invention is a methodical furnace, including upper and lower heating zones, separated by sliding pipes, clamped at the end of each zone, a vertical channel at the end of the furnace to remove flue gases and an additional wall in the form of a partition in the lower zone to equalize the pressure in the working space. . This furnace design reduces the uneven distribution of pressure in the volume of the working space (2).

However, in the areas in front of and behind the wall, the flue gases move in the shortest (direct) direction towards the vertical channel, as a result of which stagnant zones are formed and the laying temperature of the lower limiting base sharply decreases. The increase in vacuum in the methodical zone behind the wall contributes to the removal of flue gases through the vertical channel at high speed and, moreover, dramatically increases the inflow of atmospheric air through the trough window. This leads to a decrease in the temperature of the masonry of the arch of the methodical zone and the flue gas temperature in the vertical channel. Ultimately, this furnace design reduces the efficiency of the use of flue gas heat in the working space of the methodical zone and recuperators.

The purpose of the invention is to improve the heat exchange conditions and increase the efficiency of heat utilization of the Sew gas flue.

The goal is achieved by the fact that a methodical furnace, containing a working chamber with upper and lower heating zones and clamps along the furnace length between the zones, a vertical smoke outlet channel and a partition installed in front of it, is provided with an archway installed above the smoke outlet channel, and the partition is placed on the arch and has a hole in its lower part, while the height of the partition is equal to the difference in height of the working chamber in the first zone in the course of the movement of the metal and the working chamber in the overpressure section.

In addition, the cross-section of the holes in the septum is 10-20% of the cross section of the working chamber in the nip section.

FIG. I shows the profile of a portion of the furnace with the dispensing window; in fig. 2 shows section A-A in FIG. one.

The furnace includes heating zones:

About the upper 1 and lower 2, vertical channel 3 for flue gas removal, clamping 4 in front of the vertical channel, an auxiliary arch 5, on which the partition 6 is installed with openings 7 in. lower part

- for the passage of flue gases, methodical zone 8, gliding pipes 9 along which the heated metal 10 is mixed.

The furnace works as follows. . The flue gases from the welding zones pass through and pinch them to the vertical exhaust duct. A partition 6 is installed on the path of the flue gases on the auxiliary arch. Part of the flue gases is directed to the smoke exhaust channel through the openings in the partition, another part rises to the roof of the methodical zone and then goes to the smoke exhaust channel.

The directional movement of the flue gases increases the degree of heat utilization. The temperature of the arch of the methodical zone, the additional wall and the surface of the auxiliary arch that faces the mark, is increased by 100 -150 ° C, and the values of the thermal field on the metal of the heat flux increase by a factor of 1, 5. In addition, the auxiliary arch increases the heat transfer surface of the masonry.

5 Reducing the flow area of the smoke outlet by installing a partition on the auxiliary arch contributes to creating a small (1.0-1.5 mm water column) small pressure under the roof of the methodical zone, and close to zero at the level of the landing window. 0.10, 2 mm of water.). This prevents atmospheric air from leaking into the flue gas channel and provides a higher temperature of flue gases before the heat exchanger,

5 and therefore a higher temperature of air heating.

The passage section of the exhaust duct at the site of installation of the partition was chosen because of the maximum speed of the flue gases in this section 2.5-3.0 m / s at maximum loads.

The bore section of the working space of the furnace at the place of installation of the partition (taking into account the holes) is chosen equal to the cross section of the working space in the overpressure section, which allows maintaining a constant velocity of the flue gases in the area.

The adopted cross-section of the holes in the partition provides the optimal ratio of flue gas flows, passing 1 of them through the holes in the partition and above the partition. A decrease in it leads to the formation of stagnant zones near the partition, an increase in pressure under the arch of the methodical zone. In addition, mounds and fragments of brickwork can be littered from the verst and in the partition.

Increasing the holes above the upper limit results in

pressure in the furnace and vacuum in the smoke (from the lead channel, the flue gases from the working space of the furnace are removed predominantly through the holes in the partition wall. At the same time, the temperature of the roof of the methodical zone decreases.

Thus, due to better heat utilization in the working space of the furnace and recuperators, the temperature of slab heating is increased and the fuel consumption is reduced by 3-5%

Claims (2)

I. METHODICAL FURNACE, containing a working chamber with upper and lower heating zones and clamps in FIG. increase the efficiency of the use of heat of flue gases, it is equipped with an arch installed above the flue channel at the level of the lower base of the zone, and the partition is placed on the arch and has a hole in its lower part, while the height of the partition is equal to the value of the heights of the working chamber in the first along the way. the movement of the metal zone and the working chamber in the pinch section. 2. The furnace according to π. I, characterized in that the bore of the holes in the partition. accounts for 10-20% of the cross section of the working chamber in the pinch section. »>