SU1409664A1 - Method and apparatus for loading charge materials into skips of blast furnace - Google Patents

Abstract

The invention relates to blast furnace production and can be applied when loading charge materials into a blast furnace. The purpose of the invention is to save coke and increase the productivity of the blast furnace by allowing the control of radial distribution when charging the charge materials. This is achieved by the installation of vertical partitions within the receiving weights of the coke funnels and ore components. Vertical partitions are installed inside the weight funnels in such a way that the compartments formed in them are divided in a ratio of 1: (1.2 to 4.0). In the same ratio, coke and ore components loaded into these craters are divided. Each compartment is equipped with a charge gate. When a skip is loaded into the skip, the charge gate of the smaller compartment of the coke weighing funnel opens and the shutter of the booster compartment of the weighing hopper of ore. In this case, a mixture of charge materials with an increased ore load is formed in the skip. When loading into the next skip, the charge gate of the larger compartment of the coke weighing funnel opens and the shutter of the former compartment of the weighing hopper of ore. A mixture with reduced ore load is formed in the skip. The alternation of such skips in the feed makes it possible, when loading ore materials in a mixture with coke, to regulate the ore load on the radius of the blast furnace and to regulate the gas distribution. 2 sp.f-ly, 1 ill. 1 tab. with 9 (L with 4 about with 9 4a

Description

The invention relates to the domain production, in particular to methods and devices for supplying charge materials to the skips when loading the blast furnace 4,

: The purpose of the invention is to save Coke C by improving the productivity of the domain furnace by allowing the control of the radial gas distribution when loading a mixture of industrial materials.

The drawing shows a device for carrying out the method of charging- and charge materials into the skips of the pre-Valuable furnace.

The device contains plate

: Pipelines 1 and 2, installed above the BopoHKaNra sand pit ore. with receiving bunkers 3 and 4 and designed ™ 70: for feeding ore components and receiving bridges 3 and 4. To the left and (to the right of the ore weight funnels above the throat of the skips 5 and 6) the coke weight funnels are placed

the receiving bunkers 7 and 8. The weight weights and coke funnels consist of receiving bays 3, 4, 7, 8 high and low trenches 9–12, respectively, receiving bins 3, 7, 8 are divided by 30 16, intended for sections of the receiving bunkers into two compartments i accumulating in each of them their own portions of materials. In the lower part of the receiving bins of ore and coke spawn in front of the outboard bolsters are installed. The plates: ports 17–24, intended for: | materials in bunkers and release them through the chute in the ski s. 1 The vertical partitions 13-16 of the bunker-) s 3, 4., 7j 8 weight ore and ijcoKCOBbix craters are set asym-ifieTpHHHo in such a way that the volumes of the resulting compartments are in

35

40

45

25

Ratio 1; (1c, 2-4) Corresponding jfio shutters are made by size. outlets are specified from the Funnel Bins.

Control the operation of the valves you-; It is complete so that at the same time only the ore ik small coke compartments can be open in pairs or vice versa, the ore ore and large coke one. At the same time, 1) all ore and coke compartments can be opened: 0th funnels. In the case of a monthly loading, when ore materials and coke are supplied to the furnace head separately, the lock is turned off and the valves are operated in normal mode. B skip is loaded only with ore material or only coke from both compartments of the corresponding weighing hopper.

To distribute the ore components of the charge to the bins of the bays. hoppers under the discharge ends / 1 and lamellar conveyors 1 and 2 above the vertical partitions 13 and 14, U-shaped guiding elements 25 and 26 are installed, the faces of which are inclined towards the corresponding compartments. Asymmetrical races,. The partitioning of the partitions in the weight funnels allows the ore load (the ratio of the ore material to coke by weight) to vary from skip to skip, leaving it constant for

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five

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five

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five

filing in general. Changing the order of loading on the top of the skips with 5 large and low ore loads provides the ability to control the radial gas distribution in the blast furnace. Moreover, this possibility is preserved both with alternate and simultaneous loading of ore and fuel components into the skip.

Simultaneous precipitation into the skip of the ore material and coke has an advantage over the succession of the day (as this also has a better mixing quality.

When dividing the weight funnels into equal-sized compartments at the same time, the loading cannot be used continuously, since this makes it impossible to control the radial distribution in the furnace. Therefore, the periodtetheski requires a transition to / alternate height of the ore and fuel components into the skips. In the case considered (asymmetrical arrangement of partitions), it is possible to continuously work by simultaneously pouring out coke and ore materials, which ensures high mixing quality and increases due to this technical and economic indicators of smelting, in particular, reduces the specific consumption of coke and increases the productivity of the furnace.

The ratio of the volume of compartments 1: g (1j2-4) provides the ratio of ore loads between skips of one feed in the range from 2.5-4.8 to

310, 7: 16 “Reduction or increase in the ratio of the volume of compartments from the specified one impairs technical and economic indicators of smelting. In particular, a decrease in this ratio of less than 1: 4 excessively increases the difference in ore loads between the single feed. At the same time, in some skips of the supply there is an excessive amount of coke and too little of the ore component, and in other skips, on the contrary, an excessive amount of the ore component and little of coke. This circumstance, although it increases the ability to control the gas distribution in the furnace, however, reduces the quality of mixing materials, impairs the use of gas energy, contributes to an increase in the specific consumption of coke and a decrease in furnace productivity. An increase in the ratio of volumes of compartments in excess of 1: 1.2 limits the ability to control the radial gas distribution in the furnace, since this significantly reduces the difference in ore loads between the skips of one feed. In this case, the alternation of skips with different ore loading very little affects the distribution gas; which does not allow for optimum gas distribution in the furnace, impairs the use of gas, increases the specific consumption of coke and reduces the productivity of the furnace.

The device works as follows

With the help of plate conveyors 1 and 2, the entire volume of receiving bins 3 and 4 of weight ore funnels is filled. The ore materials that are conveyed from conveyors are divided by vertical partitions 13 and 14 into two parts equal to the volumes of the compartments. The coke fed in the bunker 7 and 8 of the weight funnels is similarly divided by vertical partitions 15 and 16 into two parts, the volumes of which are in the same ratio as the volumes of the silos of the ore weight crowns. After the arrival of skip 5 or 6, the shutter of one of the two compartments of the hopper of the weighing ore hopper, for example, 18, and the shutter 22 of the coke silo to the funnel interlocked with it, opens. When opening the small compartment of the ore funnel bunker, it is always open

a large compartment of the coke orkok bunker and vice versa

In this case, the ore and torus components of the charge in a given ratio come from the corresponding weight funnels to the corresponding skips. In the furnace with a similarly filled all skip filing. It is also possible to alternately pour the coke to the ores of the materials in the skip

At the same time, the loading order of material and coke from different compartments in the SCRPU RUDNOGO can vary from skip to skip, depending on the set program, when loading the skip, a large portion of one component is combined with a small portion of another, which ensures a normal filling. skip Otherwise, either the place has an overflow of skip and spilling excess material into the skip mU} or partial filling of the skip and lower loading performance.

Example, The proposed method was carried out on a blast furnace with a volume of 2000 m. For this, the vertical partitions in the weight of coke and ore component are stacked in such a way that the volumes of the chambers formed by the hood are 1: 1, 1: 1, 2; 1.2: 2.5 1: 4, 0; 1: 5, The charge materials were loaded into weight hoppers, coke and ore components with the help of plate conveyors and were divided into compartments in the indicated volume ratios. A large portion of the coke dose and a smaller ore component were unloaded into the skip, and the next skip into the next skip. The change in the indicators of blast smelting in the implementation of the proposed method are presented in the table.

Thus, the invention provides an improvement in the ability to control the radial gas distribution in the furnace, which improves the technical and economic indicators of blast-furnace smelting, in particular, reduces the specific consumption of coke and increases the productivity of the furnace by 1-2%, feed formula and I 1. The method of loading charge materials into the blast furnace skips, including the simultaneous supply of separate ore and fuel components to the skip, characterized in that, in order to save coke and increase the production of blast furnace Collateral it possible br radial llnogo control timing, and a fuel dose zudnya komponentbv de, g t by volume in a ratio of 1: (1,2-4,0) and loaded into a skip smaller

part of the dose of the fuel component and a large ore and vice versa.

2, A device for loading charge materials into blast furnace skips containing plate conveyors, weight ore and coke funnels with discharge channels and receiving bins with valves and vertical partitions installed inside the receiving bins and dividing them into compartments differing from that, the vertical partitions are installed in coke and ore receiving bins of the metal and are divided into compartments in the ratio of 1: (1.2-4.0) by volume.

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Claims (2)

¹ [furnace capacity formula and / 1. The method of loading charge materials into the skips of a blast furnace, including the simultaneous supply of ore and fuel components to the skip by separate streams, distinguishes! In order to save coke and increase the productivity of the blast furnace · by providing the ability to control radial gas distribution, doses> The bulk and fuel components are divided by volume in a ratio of 1: (1.2-4.0) and the smaller portion of the dose of the fuel component and the larger ore component are loaded into one skip and vice versa. 2. A device for loading charge materials into the skips of a blast furnace, containing plate conveyors, weighted ore and coke funnels with discharge chutes and receiving hoppers with gates and vertical partitions installed inside the receiving hoppers and dividing them into compartments, characterized in that the vertical partitions installed in the receiving coke and ore bunkers asymmetrically and divide the compartments in a ratio of 1: (1.2-4.0) by volume.