WO2004063397A1 - Device for the controlled charging of a reactor vessel, use thereof, and method therefor - Google Patents

Abstract

The invention relates to a method and a device for the controlled charging of a reactor vessel used in chemical and/or physical methods, especially in metallurgy, with a lumpy feedstock, and the uses thereof. Said device comprises a conveying means (8) that is rotatable about an essentially vertical, particularly stationary, axis of rotation (12) and directs the pourable material in a controlled manner, and a chute (9) for discharging the pourable material in a specific manner, which is also rotatable about said axis of rotation (12) and is connected to the conveying means (8), and the angle of which relative to the vertical line can be adjusted. The chute (9) is defined by a surface area that is located along the geometrical axis thereof. The conveying means (8) is provided with a defined transfer-conveying cross section in the area where the pourable material is transferred to the chute in order to limit the flow of pourable material during transfer to the chute, said cross section extending perpendicular to the axis of rotation. A normal distance z > 0 is provided between the center of gravity of the area of the transfer-conveying cross section and the axis of rotation (12).

Description

DEVICE FOR THE CONTROLLED LOADING OF A REACTOR CONTAINER AND ITS USE AND METHOD

The invention relates to a method and a device for the controlled feeding of a reactor vessel of chemical and / or physical process engineering, in particular metallurgy, with a lumpy feedstock, which can be used to control the conveyance of a substantially vertical, in particular stationary, axis of rotation Bulk material and a chute that is also rotatable about the axis of rotation and adjoins the conveying means and that is angle-adjustable with respect to the vertical, for targeted discharge of the bulk material, the chute being defined by a lateral surface arranged along its geometric axis, and its uses.

Feeding devices for shaft furnaces are known from the prior art, for example from publication DE2065460A1, which have a chute that is adjustable in angle via a shaft. This configuration of a charging device, which is used primarily in blast furnaces, is arranged in the interior of the shaft furnace, in particular in the upper part of the reactor space. In principle, this configuration of a loading device can be used in all, in particular metallurgical, shaft furnaces or all reactors in physical and / or chemical process engineering. Due to the angle adjustment of the chute, a largely accurate charging of the reactor bed can be achieved. The loading devices known from the prior art are further characterized by a not inconsiderable space requirement. Thus, a noteworthy portion of the reactor space is used by the charging device and reduces that available for the actual function of the reactor. standing primary reactor room.

The invention has for its object to develop a device according to the preamble of claim 1 and a method according to the preamble of claim 17, by means of which a more cost-effective controlled loading of a reactor or a more cost-effective operation of a reactor is possible.

BESTATIGUNGSKOPIE The object is achieved according to the inventive device according to the characterizing part of claim 1 and according to the inventive method according to the characterizing part of claim 17.

By the procedure according to the invention, to mount the chute for charging the reactor decentrally, at a distance from the corresponding axis of rotation for the rotation of the chute, it is possible to minimize the space to be provided for the charging device.

According to a special embodiment of the invention, the charging device can be accommodated at least partially in the feed line of the feed material.

This ensures that, on the one hand, the chute has a certain minimum length necessary for the bundling and / or acceleration of the feedstock, and on the other hand, only a minimum amount of reactor space is used.

The construction according to the invention can above all minimize the space requirement of the charging device in the vertical direction and thus the distance of the charging device from the lower limit of the reactor can be increased. Since high temperatures tend to be expected in the lower area of the reactor in thermal processes, maximizing the distance of the charging device from this area ensures a minimization of the thermal and or thermomechanical stress on the charging device. According to a special embodiment of the invention, the particularly compact design of the charging device makes it possible to mount it in thermally low-stressed but confined areas of the reactor, as a result of which a longer service life can be achieved. According to a further embodiment of the invention, the presented charging device according to the invention is particularly easy to handle due to its compact design, whereby the downtimes can be reduced, in particular during removal and / or installation.

Due to the compactness of the feed device according to the invention, the special constructive measures for enlarging the upper reactor space are eliminated due to the expansive constructions of the loading devices known from the prior art.

According to a preferred embodiment of the invention, the device for unifying the bulk material flow also serves to reduce the cross section of the material flow of the feed material.

According to a special embodiment of the present invention, the, in particular funnel-shaped, device for unifying the bulk material flow serves above all to interrupt the path of the feed material, which results from the discharge movement of a suitable conveyor system, for example a screw conveyor. Due to the baffle surface of the device for standardization, which is inclined with respect to the vertical, the feed material is deflected or braked and thus leaves the throw path predetermined by the conveyor system. This can prevent the feed material from being loaded directly onto the reactor bed without being braked along its characteristic path predetermined by the conveyor system.

According to a special embodiment of the invention, the device serves for the purpose of bundling and or redirecting the bulk material flow.

According to a special embodiment of the invention, the device for standardization is designed as a temporary collecting container and / or as a collecting line. According to a further special embodiment, the device for unification has a backflow behavior and thus serves to even out the material flow.

According to a special embodiment of the invention, the device for standardization has a protruding, in particular funnel-shaped, receiving part for receiving the dropped bulk material and a narrowing manifold for forwarding the bulk material. According to a special embodiment of the invention, the device for unification is produced from a correspondingly reinforced sheet metal part.

According to a further embodiment of the invention, the device for standardization makes the material flow more uniform and / or more compact. This particularly efficiently supports the effect of the chute as an adjustable organ for the targeted distribution of the feed material.

According to a further embodiment of the invention, the feed is collected by the conveying means and guided to a drop point at which the feed of the angle-adjustable chute is dropped.

According to a preferred embodiment of the invention, the charging device presented is particularly suitable for loading reactors in metallurgical technology, in particular a shaft furnace and / or blast furnace and / or melter gasifier.

According to a special embodiment of the invention, the device presented serves for the distribution of bulk material by means of gravity.

The defined task cross-section corresponds to the cross-section of the bulk material flow in the region of the transfer of the bulk material from the conveying means into the angle-adjustable chute and, according to a particular embodiment, is essentially determined by the design and structural design of the conveying means. The horizontal expansion of the bulk material flow is determined by the conveying means and therefore a defined feed cross-section is specified. The specification of the feed conveyor cross-section itself can be done through a variety of constructive solutions of the funding. In this regard, closed and / or at least partially open versions of the funding are conceivable.

According to a preferred embodiment of the device according to the invention, the distance z corresponds to at least half the diameter of the feed conveyor cross section.

According to another special embodiment of the invention, the distance z is at least 1 times or 1.5 times the diameter of the defined feed conveyor cross section.

According to a preferred embodiment of the device according to the invention, the conveying means is provided with a device for unifying the bulk material flow, with a baffle inclined at an angle of less than 180 ° to the vertical.

According to a special embodiment, the baffle surface is inclined at 90 ° with respect to the vertical, that is to say it is aligned horizontally, as a result of which a material cushion can form on the baffle plate.

According to a preferred embodiment of the device according to the invention, the device for standardizing the flow of bulk material and / or the conveying means is / are connected to the chute and a drive device is provided, by means of which the parts connected to one another can be rotated together about the axis of rotation.

In experiments, this constructive measure has been confirmed to be particularly efficient and inexpensive.

According to a preferred embodiment of the device according to the invention, the impact surface has an angle of inclination of at least 20 ° with respect to the vertical.

According to a preferred embodiment of the device according to the invention, the baffle surface at least partially has the shape of a funnel that unifies the material flow.

According to a special embodiment of the invention, the baffle is provided as part of the funnel which unifies the material flow.

The funnel shape on the one hand ensures that the dropped bulk material is standardized and concentrated and can be fed to the subsequent conveying means.

According to a preferred embodiment of the device according to the invention, an actuating device, in particular an actuating rod, is provided in the region of the axis of rotation for actuating the angle-adjustable part of the chute.

According to a special embodiment of the device according to the invention, the actuating device is designed as an actuating rod and is the rotatable one The actuating rod is arranged in the region of the axis of rotation in such a way that the actuating rod can essentially rotate in a fixed position.

According to another embodiment of the invention, a rope and / or a chain and / or lever is used as the actuating device.

According to a preferred embodiment of the device according to the invention, the chute has a pivot point at which the actuating device engages, as a result of which the inclination of the chute relative to the reactor axis can be adjusted via the movement of the actuating device, in particular via the translation of the actuating rod, preferably along the axis of rotation.

According to a preferred embodiment of the device according to the invention, the actuating device is designed as an actuating rod, and a rotary bearing is provided in the region of the axis of rotation, in which the actuating rod is rotatably mounted.

Since, according to a special embodiment, the actuating rod is arranged in the region of the axis of rotation and is essentially rotatably mounted in a stationary manner, the actuating device can be mounted in a pivot bearing in the region of the axis of rotation, in particular in the axis of rotation. According to a special embodiment of the present invention, the pivot bearing is arranged above the chute, in particular in the area of the unit for unifying.

According to a preferred embodiment of the device according to the invention, an actuating device, in particular a drive or a hydraulic and / or pneumatic cylinder, is provided, by means of which the actuating device can be moved, in particular in the direction along the axis of rotation.

The drive can be, for example, an electrical actuating device, for example a worm drive, by means of which an actuating lever can be actuated, for example, or which acts directly on the actuating device and moves it in the direction of the axis of rotation. According to a special embodiment of the device according to the invention, one or more levers, preferably a lever system consisting of at least two lever rods, are provided, by means of which the movement of the actuating device, for example the translation of the hydraulic cylinder, into one movement via one or more deflection points, in particular translation, the actuator is convertible.

According to a preferred embodiment of the device according to the invention, the device for standardizing the bulk material flow and / or the conveying means and / or possibly the chute is arranged at least partially outside the reactor space, in particular in a nozzle on the reactor space.

Reactors in chemical and / or physical process engineering, in particular reactors in metallurgy, are often used to carry out thermal processes which generally require high temperatures. These temperatures, as they occur, for example, in a blast furnace or a smelting gasifier for the production of pig iron, represent a high thermal and thermomechanical load for the materials used inside the reactor. In particular, bearings or moving machine elements can only be used to a limited extent or at high ambient temperatures very sensitive to use.

The present device according to the invention can be integrated in a correspondingly temperature-protected area at the upper end of a reactor, for example in the area of the upper limit of the reactor, due to the compactness of its construction and the resulting low space requirement, particularly in the vertical direction. In this regard, in the case of a melter gasifier, according to a particular embodiment of the invention, the charging device is at least partially integrated in the area of the dome and / or in a connection piece provided on the dome. As a result, the charging device is at least partially protected from the aggressive ambient conditions, in particular from the high temperatures, inside the reactor and is therefore ready for use over a longer period of time even without complex and expensive maintenance work. The inventive construction and arrangement of the charging device outside the primary reaction space ensures optimized and largely undisturbed operation of the respective reactor.

In particular if the charging device according to the invention is at least partially arranged in a particularly temperature-protected area of the reactor which is smaller in size than the reactor space, for example in a nozzle on the reactor, the decentralized arrangement of the chute according to the invention allows the charging angle to be increased.

The present invention is further characterized by a use according to claim 13.

According to one embodiment of the use according to the invention, the device for controlled loading is used for charging a carbon-containing feedstock, in particular a lumpy coal.

The present invention is further characterized by a use according to claim 15.

According to a particular embodiment, the charging device supplies the melting gasifier with the carbon-containing feed material via an opening arranged in the coupling area of the melting gasifier for supplying a carbon-containing feedstock, in particular a lumpy coal.

According to a particular embodiment of the invention, a melter gasifier is an aggregate for the production of pig iron and / or intermediate steel products, a fixed bed being formed in the reactor with the addition of pre-reduced iron ore, in particular sponge iron, and a carbon-containing feedstock, in particular lumpy coal, and the pre-reduced Iron ore, with the simultaneous generation of a CO and / or H ₂ -containing reducing gas, is smelted to pig iron. According to a further particular embodiment of the invention, a melter gasifier has a lower part for collecting the molten pig iron and the slag, a middle part for receiving the fixed bed formed from the lumpy coal and an upper dome-shaped part for feeding in the coal, the DRI and any additives , According to a further embodiment, oxygen and possibly dusts, for example from the reduction gas cleaning, are blown in on the side of the melter gasifier.

According to one embodiment of the use according to the invention, the device for controlled loading is used to charge an insert containing ore, in particular an insert containing iron ore.

The invention is further characterized by a method according to claim 17.

According to a special embodiment of the method according to the invention, the lumpy feedstock is set in rotation about the central axis of rotation upon and / or before it hits the angle-adjustable chute.

According to a special embodiment of the method according to the invention, the center of gravity of the cross section of the bulk material flow defined by the conveying means on the chute in the area of the bulk material flow and at a normal position to the axis of rotation is at a normal distance z> 0, in particular at a distance that is at least half the diameter corresponds to the defined task cross-section, arranged from the central axis of rotation.

According to a special embodiment of the method according to the invention, the bulk material flow is collected and / or standardized in a device for standardization before being introduced into the conveying means.

According to a special embodiment of the method according to the invention, the bulk material is already set into a rotation about the central axis of rotation in the unit for standardization.

According to a special embodiment of the method according to the invention, the bulk material flow meets a baffle surface or a material cushion to equalize the bulk material flow at the device for standardization.

Various non-limiting exemplary embodiments of the invention are explained in more detail below with the aid of schematic drawings. Show it: Fig. 1 shows the central and decentralized arrangement of a rotary chute

Fig. 2 shows an embodiment of a loading device

Fig. 3 shows another embodiment of a loading device

Fig. 4 shows the use of the loading device in a device for producing pig iron and / or steel preliminary products

Fig. 5 is a schematic illustration of the operation of a loading device according to the invention

1 serves to illustrate an advantage of the device or method according to the invention over the prior art. 1 shows the upper part of a reactor 3, for example a melter gasifier, which is defined by a suitable wall 1 for delimiting the reactor space. A suitable nozzle 2 is provided on the dome of the reactor and is designed to at least partially accommodate the charging device according to the invention. In order to illustrate the particular advantages of the present invention, the loading device has two chutes 4 and 4 'which can be rotated about an axis of rotation 5. While the chute 4 (prior art) is arranged centrally in the connecting piece with respect to its point of application along the central axis of rotation 5, the chute 4 'is at a distance z from the axis of rotation 5 with respect to its point of application (auxiliary axis 6). The maximum achievable charging angle is limited both in the prior art (chute 4) and in the device according to the invention (chute 4 ') by the structural conditions. As can be seen from FIG. 1, by displacing the feed point of the chute by a distance z, a significantly larger charging angle α 'can be achieved than the charging angle α (prior art). By increasing the charging angle, the feed material can thus be charged closer to the outer boundary of the reactor space.

For a given charging angle, a larger chute length can be achieved by moving the drop point, which means that the feed material can be accelerated better in the direction of the chute. 2 shows two different views of a loading device according to a further embodiment of a loading device. The loading device shown has a funnel-shaped device for standardization 7 with a baffle surface as well as an adjoining conveying means 8, and a movable, angle-adjustable chute 9. The defined cross-section of the bulk material flow is determined by the expansion of the bulk material flow in the region of the transition of the conveying means into the chute. The loading device also has an actuating rod 10 which is attached to the chute 9 on the one hand via a pivot point and a suitable device and on the other hand is connected to a lever 11 via a pivot bearing. As can further be seen from FIG. 2, the lever 11 is connected via a shaft 15 mounted in a bearing 18 to a second lever 16 which can be actuated via a hydraulic cylinder 17. The device for standardization 7, together with the conveying means 8 and the chute 9, is designed to be rotatable about the axis of rotation 12 via a suitable drive device (not shown). A suitable rotary bearing 19 is provided for this purpose. The charging device is arranged in a particularly protected section of the reactor, in particular in a nozzle 13 on the reactor 14.

3 shows a further embodiment of a loading device. Compared to the embodiment shown in FIG. 2, the embodiment according to FIG. 3 differs in that the chute 9 'has been adjusted to the position shown by actuating the lever 11' and the actuating rod 10 '.

4 shows a device for producing pig iron and / or steel preliminary products, in particular for carrying out the COREX ^® process. A melter gasifier 20 with a tap 21 for pig iron and / or slag is provided. The melter gasifier 20 is loaded via a feed line 22 with iron ore, in particular pre-reduced iron ore (DRI), which is produced from iron ore 24 in a pre-reduction reactor 23 according to a particular embodiment. According to a particular embodiment, the reducing gas 25 generated in the melter gasifier is used to supply the pre-reduction reactor 23. The melter gasifier also has an opening 26 for supplying a carbon-containing feedstock, in particular a lumpy coal. According to a special embodiment of the The charging device according to the invention is arranged in the opening 26 or at least partially in a connecting piece provided at the opening.

In Fig. 5 the function of the loading device is shown schematically. It can be seen how the input material initially hits an area of the device for standardization 7 designed as a baffle plate 27 and reaches the conveying means 8 '. The bulk material then passes via the conveying means 8 'into the angle-adjustable chute 9', through which it is loaded precisely onto the locations of the reactor bed to be loaded.

According to a special embodiment of the invention, a screw conveyor is provided above the chute as a conveyor system for conveying the feed material to the device for standardizing the bulk material flow.

A screw conveyor proves to be particularly advantageous in practice, since a particularly controlled way of conveying the feed material can be carried out with this device. Using a screw conveyor, the chute attached below can be supplied in a particularly economical form with a controllable amount of feedstock continuously or discontinuously.

Claims

claims:

1. Device for the controlled feeding of a reactor vessel of chemical and / or physical process engineering, in particular metallurgy, with a lumpy feedstock, which

A conveying means (8) which can be rotated about an essentially vertical, in particular stationary, rotation axis (12) for the controlled guidance of the bulk material and

A chute (9), which is also rotatable about the axis of rotation (12) and adjoins the conveying means and is adjustable in angle with respect to the vertical, for targeted discharge of the bulk material, the chute being defined by a lateral surface arranged along its geometric axis,

characterized in that the conveying means in the area where the bulk material is fed to the chute has a defined feed cross-section normal to the axis of rotation (12) for limiting the flow of bulk material when the bulk material is fed onto the chute and between the center of gravity of the area of the feed conveyor cross-section and the axis of rotation Normal distance z> 0 is provided.

2. Device according to claim 1, characterized in that z corresponds to at least half the diameter of the feed conveyor cross-section.

3. Apparatus according to claim 1 or 2, characterized in that a device (7) is provided upstream of the conveying means for unifying the bulk material flow, with a baffle surface which is inclined at an angle of less than 180 ° with respect to the vertical.

4. Device according to one or melireren of claims 1 to 3, characterized in that the device (7) for unifying the bulk material flow and / or the conveyor (8) with the chute (9) connected is / are and a drive device is provided, by means of which the parts connected to one another can be rotated together about the axis of rotation.

5. The device according to claim 3 or 4, characterized in that the baffle surface has an angle of at least 20 ° with respect to the vertical.

6. The device according to one or more of claims 3 to 5, characterized in that the baffle at least partially has the shape of a funnel unifying the material flow.

7. The device according to one or more of claims 1 to 6, characterized in that an actuating device (10) arranged in the region of the axis of rotation, in particular an actuating rod, is provided for actuating the angle-adjustable part of the chute.

8. The device according to claim 7, characterized in that the chute has a pivot point on which the actuating device (10) engages, whereby on the movement of the actuating device (10), in particular on the translation of the actuating rod, preferably along the axis of rotation, the inclination of the Chute (9) is adjustable relative to the reactor axis.

9. The device according to claim 7 or 8, characterized in that the actuating device is designed as an actuating rod, and in the region of the axis of rotation a rotary bearing is provided, in which the actuating rod is rotatably mounted.

10. The device according to one or more claims 7 to 9, characterized in that an adjusting device (17), in particular a drive or a hydraulic and / or pneumatic cylinder, is provided, via which the actuating device, in particular in the direction along the axis of rotation, movable is.

11. The device according to claim 10, characterized in that one or more levers (11), preferably a lever system consisting of at least two lever rods, is / are provided, by means of which the movement of the Actuating device, for example the translation of the hydraulic cylinder, can be converted into a translation of the actuating device via one or more deflection points.

12. The device according to one or more of claims 1 to 11, characterized in that the device (7) for unifying the bulk material flow and / or the conveyor (8) and / or optionally the angle-adjustable chute (9), at least partially outside the reactor space , in particular in a nozzle on the reactor space, is / are.

13. Use of a device for the controlled charging of a reactor vessel according to one or more of claims 1 to 12 for charging a melter gasifier for melting a metal-containing, in particular iron-containing, feedstock and for producing a CO and / or H ₂ -containing reducing gas.

14. Use according to claim 13, characterized in that the device for controlled loading is used to charge a carbon-containing feedstock, in particular a lumpy coal.

15. Use of a device for the controlled feeding of a reactor vessel according to one or more of claims 1 to 12 for feeding a shaft furnace for the reduction of a metal-containing, in particular iron-containing, feedstock.

16. Use according to claim 15, characterized in that the device for controlled loading is used to charge an ore-containing feed, in particular an iron-ore-containing feed.

17. A method for feeding a reactor in process engineering, in particular metallurgy, with a lumpy feedstock, the lumpy feedstock being fed as a bulk material flow into a preferably rotatable conveying means and subsequently onto a chute that is adjustable in angle with respect to the vertical and rotatable about a central axis of rotation is loaded for the targeted discharge of the bulk material, characterized in that the lumpy input material in one Normal distance z> 0 is loaded from the central axis of rotation onto the angle-adjustable chute, which is rotatable about the central axis of rotation.

18. The method according to claim 17, characterized in that the lumpy feed material is rotated about and around the central axis of rotation when and / or before it hits the angle-adjustable chute.

19. The method according to claim 17 or 18, characterized in that the

Center of gravity of the feed cross-section of the bulk material flow defined by the conveyor onto the chute and positioned normal to the axis of rotation at a normal distance z> 0, in particular at a distance that corresponds to at least half the diameter of the defined feed cross-section, from the central axis of rotation is arranged.

20. The method according to one or more of claims 17 to 19, characterized in that the bulk material flow is collected and / or standardized in a device for standardization before being introduced into the conveying means.

21. The method according to claim 20, characterized in that the bulk material is already set in the device for unification in a rotation about the central axis of rotation.

22. The method according to claim 20 or 21, characterized in that the

Bulk material flow meets a baffle or a material cushion to equalize the bulk material flow at the device for standardization.