JPH0783578A - Gas calorie averaging device in gas recoverying holder - Google Patents

Abstract

PURPOSE:To provide a device for averaging a gas calorie at an outlet side of a gas holder for use in improving a combustion efficiency at a burner for supplying gas generated at a converter, a hot blast furnace or a coke-oven plant. CONSTITUTION:There is provided a gas calorie averaging device in a gas recovering holder for use in storing gas generated from a converter, a hot blast furnace or a coke-oven plant and supplying the stored gas to an application part in which it is comprised of an upward directed nozzle 11 and/or a shielding wall 12 at a gas inlet port within the holder.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for smoothing out gas calories on the outlet side of a gas recovery holder.

[0002]

2. Description of the Related Art Generally, when recovering gases generated from converters, blast furnaces, coke ovens, etc., the amount of gas generated from those furnaces is not uniform over time and has an amplitude.
As shown in FIG. 6, the gas generated from the furnace 1 is stored in the gas recovery holder 2 through the pipe and the outlet shutoff valve 3a, and is stored in the gas recovery holder 2 when the gas generation is stopped. A method of stably supplying the gas is used by discharging the generated gas through the outlet shutoff valve 3b and the booster blower 4 to the gas destination.

Further, the gas calorie changes greatly due to changes in operation for a few minutes immediately after the gas is generated or immediately after the gas is generated.
Since the gas stored in the gas recovery holder 2 is mixed with the gas stored in the gas recovery holder 2, the change in gas calorie becomes small, and it is possible to supply the gas to the gas supply destination with little caloric fluctuation.

[0004]

However, the conventional method of storing the generated gas from the furnace in the gas recovery holder 2 is effective in smoothing the fluctuation of the generated gas, but the gas recovery holder 2 is effective. There is a problem that the existing gas and the newly introduced gas are not sufficiently mixed due to the influence of the gas flow 6 in the inside, and it is insufficient to smooth the caloric fluctuation of the gas.

That is, as is apparent from FIG. 7, when the piston 5 is rising in the direction of the arrow, the gas flow 6 in the gas recovery holder 2 becomes an upward flow as the piston 5 moves up. As a result, the inflowing gas flow 7 entering from the inlet pipe 9 flows upward along the gas flow 6 in the gas recovery holder 2 and mixes with the entire volume of gas in the gas recovery holder 2 so that calories are smoothed. The mixed gas becomes a mixed gas 8 and is discharged from the outlet pipe 10.

However, as shown in FIG. 8, conversely, the gas flow 6 in the gas recovery holder 2 when the piston 5 descends becomes a descending flow. Therefore, the inflowing gas flow 7 entering from the inlet pipe 9 is suppressed to the gas flow 6 from above and becomes a flat flow along the lower portion of the gas recovery holder 2, and the outlet pipe 10
Will be discharged more.

Further, as shown in FIG. 9, when a planar flow is seen from the upper side of the gas recovery holder 2, the inflowing gas flow 7 forms a flow from the inlet pipe 9 directly to the outlet pipe 10. Become. For this reason, the gas in the gas recovery holder 2 cannot be mixed with the gas, and sufficient smoothing of the gas calorie on the outlet side of the gas recovery holder cannot be achieved.

An object of the present invention is to provide a gas calorie smoothing device in a gas recovery holder 2 which solves the above problems.

[0009]

The present invention provides a gas recovery holder for recovering and storing the generated gas from a converter, a blast furnace, a coke oven or the like, and supplying the stored gas to a user.
An apparatus for smoothing gas calories in a gas recovery holder, characterized in that an upward nozzle and / or a blocking wall are provided at a gas inlet portion in the holder.

[0010]

[Operation] According to the present invention, since the upward nozzle is installed at the gas inlet of the gas recovery holder, even if the piston in the gas recovery holder descends and the gas flow in the gas recovery holder is downward flow. The gas flowing into the gas recovery holder can be made to flow upward by the upward nozzle of the gas inlet of the gas recovery holder.

Therefore, the gas in the gas recovery holder, which is a downward flow, and the upward flow gas flowing into the gas recovery holder are mixed, and the gas calories on the outlet side of the gas recovery holder are smoothed. In addition, if the blocking wall is installed in the gas recovery holder,
Since the gas does not flow from the gas inlet portion directly to the gas outlet portion, even with a flat flow, the mixing with the gas in the gas recovery holder is promoted to some extent.

[0012]

Embodiments of the present invention will be described below with reference to the drawings based on an example of gas recovery generated during refining of a converter. FIG. 1 is a side sectional view showing a first embodiment, in which an upward nozzle is provided at a converter gas inlet in a converter gas recovery holder 2a.
11 are installed.

As is apparent from the figure, the inflowing converter gas flow 7 from the upward nozzle 11 flows as shown by the arrow in the figure and is mixed with the converter gas in the converter gas recovery holder 2a to form a mixed gas 8. , Discharged from the outlet pipe 10. In addition, FIG.
2 is a plan view showing an embodiment of the present invention, and a converter gas recovery holder 2a
A barrier wall 12 is provided at the converter gas inlet portion therein.

As is apparent from the figure, the inflowing converter gas flow 7 from the inlet pipe 9 is blocked by the blocking wall 12 and bypasses the wall, and in the meantime, the converter gas in the converter gas recovery holder 2a It is combined with stream 6 and discharged from outlet tube 10. Next, FIG. 3 shows changes with time in the converter generated gas calories 13 and the outlet side gas calories 14 of the converter gas recovery holder 2a in the first embodiment of the present invention, and FIG. 4 shows the second embodiment of the present invention. 7 shows changes with time in the converter generated gas calorie 13 and the outlet side gas calorie 14 of the converter gas recovery holder 2a in the above embodiment.

Further, for comparison, FIG. 5 shows a converter generated gas calorie 13 and a converter gas recovery holder 2a in the conventional example.
3 shows the time-dependent change in the gas calorie 14 on the delivery side of. Since the converter generated gas calorie 13 immediately after the generation and immediately after the generation is small, the time-dependent change line of the gas calorie becomes a mountain shape. Figure 3
As is clear from FIG. 4 and FIG. 4, the maximum decrease value (A in FIG. 3) of the outlet gas calorie 14 of the converter gas recovery holder 2a in the first embodiment of the present invention is 0.12 × 10 ³ (Kcal / Nm). ³ ) with
The time (B in Fig. 3) to return to the initial outlet gas calorie 14 is
It is 4.1 minutes, and the maximum reduction value (A in FIG. 4) of the output side gas calorie 14 of the converter gas recovery holder 2a in the second embodiment is 0.3 × 10 ³ (Kcal / Nm ³ ), which is the first output. The time to return to side gas calorie 14 (B in Fig. 4) was 7.0 minutes.

In both cases, the maximum decrease value of the outlet gas calorie 14 of the converter gas recovery holder 2a in the conventional example of FIG. 5 (A in FIG. 5) 0.52 × 10 ³ (Kcal / Nm ³ ) and the initial outlet side Compared to the time to return to gas calorie 14 (B in Fig. 5) of 8.4 minutes, the maximum reduction value and the required time were much shorter, and the purpose of smoothing the converter gas calorie was achieved. In the embodiment of the present invention, the upward nozzle 11 and the blocking wall 12 are used separately, but both may be implemented together.

Further, although the present embodiment describes the gas generated in the converter, it can be applied to the gas recovery holder of the blast furnace and the coke oven.

[0018]

As described above, according to the gas calorie smoothing device in the gas recovery holder of the present invention, the gas calorie on the outgoing side of the gas recovery holder is smoothed and its fluctuation is reduced, so that the gas supply is reduced. The burnability of the burner is improved, the fuel consumption rate is improved, and the risk of burner misfire due to gas calorie fluctuations is eliminated, thus improving safety.

[Brief description of drawings]

FIG. 1 is a schematic diagram showing a converter gas flow in which an upward nozzle is installed at an inlet portion of a converter gas recovery holder.

FIG. 2 is a schematic diagram showing a converter gas flow in which a blocking wall is installed at an inlet portion inside a converter gas recovery holder.

FIG. 3 is a diagram showing changes over time in the inlet side converter generated gas calories of the converter gas recovery holder and the outlet side gas calories of the converter gas recovery holder in the first embodiment.

FIG. 4 is a diagram showing changes over time in the inlet side converter generated gas calories of the converter gas recovery holder and the outlet side gas calories of the converter gas recovery holder in the second embodiment.

FIG. 5 is a diagram showing changes over time in the converter generated gas calorie on the inlet side of the converter gas recovery holder and the converter side gas recovery holder outlet side calorie in the conventional example.

FIG. 6 is an explanatory diagram showing a system from gas generation to gas supply.

FIG. 7 is a schematic diagram showing a gas flow when a piston is raised in a conventional gas recovery holder.

FIG. 8 is a schematic diagram showing a gas flow when a piston is lowered in a conventional gas recovery holder.

9 is a schematic diagram showing a planar gas flow seen from the upper direction in FIG.

[Explanation of symbols]

 1 Furnace 2 Gas recovery holder 2a Converter gas recovery holder 3a Outlet shutoff valve 3b Outlet shutoff valve 4 Booster blower 5 Piston 6 Gas flow 7 Inflow gas flow 8 Mixed gas 9 Inlet pipe 10 Outlet pipe 11 Upward nozzle 12 Shutoff wall 13 Roller Furnace gas calorie 14 Outlet gas calorie

Claims (1)

[Claims] 1. A gas recovery holder for recovering and storing gas generated from a converter, a blast furnace, a coke oven, or the like, and supplying the stored gas to a destination of use, an upward nozzle and / or a blocking wall at a gas inlet portion of the holder. An apparatus for smoothing gas calories in a gas recovery holder, characterized by being provided with.