CZ236195A3 - Method of removing gases generated during filling of coke oven batteries with coal and apparatus for making the same - Google Patents

Abstract

While a coke oven battery is being filled with coal, oven gases are removed by suction and are directed into the battery main (24). Some of the gas is sucked away through several or all filling holes (1,2,3,4) of the oven by means of filling telescopies (5,7,7,8), it is collected and transferred by means of one or several gas collector pipes and transfer telescopes into the gas collector space of a neighbouring oven. From the collector space of this oven gas is directed into the battery main.

Description

(57) The removal of the gases produced by the charging of the coke oven battery (101) with coal is accomplished by suction through more or all of the filled coke oven chambers (100) by means of the following apparatus. The apparatus comprises a transfer vehicle (103) with a transfer device which is connectable to an adjacent furnace chamber (100) and reduces the emissions of the filled gases by providing for all the filling openings (1, 2, 3, 4) of the coke oven (100) ) are provided by known filling telescopes (5, 6, 7 and 8) with annular slotted chambers (R), such that the annular slotted chambers (R) are preferably connected to a single gas-filled gas collecting pipe (9, 10). and that preferably a single transfer telescope (21) is arranged in such a position on the charging car (103) that allows fluid transfer of the transfer telescope (21) preferably to the single feed opening (1, 2, 3, 4). ) adjacent furnace chambers (100)

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Process for removing gases produced by charging coke oven batteries with coal and apparatus for carrying out the same

The invention relates to a process for removing gases produced by the charging of coke oven batteries with coal and to a device for carrying out the process according to the preamble of claims 1 and 4.

Current_technologies

From Gltickauf 122, 1986, No. 5, pages 367 to 374, it is known to introduce gases produced by coal coke ovens by means of vacuum generated by pressurized water injection or steam injection, by means of a furnace riser as well as transfer tubes, also called juraper A pipe, movable by means of a loading wagon and connectable at the opposite end of the chamber to so-called mini-risers, through the gas collection space to an adjacent chamber at which at this time relatively little gas is released and introduced through its riser into the sump.

In this method, the gases are led horizontally through the coke oven chamber to the riser. In particular, at the end of the feed phase, the cross-section for the gas flow is narrowed during the leveling of the coal and thus increases the pressures of the filled gas in the gas collecting space, i.e. above the coal and above the chamber ceiling.

This generates gas pressures within the furnace chamber and at the filler orifices, which can lead to stronger or less powerful exhaust gas emissions, which occur in particular in the region of the filler orifices between the filler orifice frame and the so-called filler telescopes.

In order to achieve emission-free or, if possible, low-emission filling, in spite of the given conditions, suction must be carried out by means of a riser with a correspondingly high vacuum. However, this again results in the fact that larger amounts of coal particles are entrained in the receiver, and thus the degree of tar purity is adversely affected.

Since only one mini-riser is used for each chamber on that side of the chamber opposite the main riser, the investment costs for this method are relatively high. In any case, it is possible to carry out the corresponding treatment of the coke oven battery only after the corresponding furnace chambers have been shut down. Each mini riser has a lid. The sealing is usually carried out by means of a water bath. In addition to the investment costs of these additional risers, considerable cleaning and maintenance costs must be incurred as the water stream is contaminated when the gas stream is transferred and the lids need to be cleaned.

A similar system of the same kind is known from US-A 4,004,702, in which the feed gas stream is reduced by constriction on the feed telescope and is to be better distributed in the coke oven chamber for longer coke charging times. Here it is possible to use a jumper with a jumper for additional distribution of the filled gas.

The essence of the invention

SUMMARY OF THE INVENTION It is an object of the present invention to provide a method and apparatus of the type mentioned at the outset by means of which emission-free charging or charging with the lowest possible coal emissions is possible with comparatively low technical costs and minimal operating costs.

The object is solved by a method with the features of claim 1 and a device with the features of claim 4, wherein preferably only one single gas collecting pipe is connected preferably to all of the remaining filling holes of the filled coke oven chambers and which is only connected by one single feed gas telescope to one single feed opening of the adjacent coke oven, i.e., the oven chamber. Further advantageous embodiments result from the dependent claims.

For the purposes of the invention, the adjacent furnace chamber or furnace chamber is understood to be one in which the quantity of gas to be removed in its gas collecting space is so small that the quantities of gas to be transferred there can also be removed. This implies that it need not be an immediately adjacent chamber of the furnace, but may also be, for example, the next or the next chamber of the furnace.

According to the invention, a part of the gases to be filled, as known in the prior art, is sucked in a horizontal direction to the riser of the just filled chamber of the furnace and from there to the receiver. Additionally, the feed gases are fed vertically from the furnace chamber through all feed openings that are differentiated along the length of the chamber, through a special transfer system to the adjacent furnace chamber and from there to the receiver. Since the feed gas is sucked apart at various points along the entire length of the furnace, no high gas pressures can be generated, which would result in emissions.

The amount of gas to be filled increases during the filling process, which usually lasts from 50 to 120 seconds continuously, depending on the charging system and the amount of coal to be charged. In line with this increase, the pressure and temperature of the filling telescopes also increase. To counteract this, according to a further preferred embodiment of the invention, the suction power is adapted by detecting an increasing pressure and / or temperature with an increasing amount of gas to be filled on the filling telescopes.

According to a further preferred embodiment of the invention it is also possible to control the suction volume according to the time course during the filling time.

The transfer system according to the invention is completely arranged on the charging car and consists of the following components. On the one hand, it has filling telescopes with annular slit chambers for the vertical discharge of the filled gas from the furnace chambers. It further has, preferably a single, gas-filled manifold connected to the annular slit chambers. Further, preferably the only one of the gas-intake manifolds which is fluidly connected to the gas-intake manifold is preferably a blower, such as a hot gas fan, preferably with a controlled volumetric flow. Furthermore, it also preferably has a single feed gas telescope for fluidically connecting the feed gas manifold, preferably through a single furnace chamber filling opening adjacent to the filled furnace chamber.

According to preferred embodiments, it is further provided that at least one mass cooler is provided to reduce the temperature of the feed gases to be transferred, that shut-off flaps are provided between the feed telescopes and the transfer telescope in the tubular system, and that temperature and / or pressure sensors are provided for control; regulation of the blower.

The furnace lid of the adjacent furnace chamber feed opening through which the corresponding portion of the gases to be fed to the adjacent furnace chamber gas collection space is lifted by means of an electromagnet wound into the transfer telescope or through a device outside it and stored again after the transfer process. The filling opening of the adjacent furnace chamber used for transferring the gas to be filled can be selected in accordance with the space conditions on the charging car. The restriction of the transfer point to the coke side, as is the case with known jumper pipes, is eliminated, that is to say that each of for example three to five filling holes acting from adjacent furnace chambers can be utilized. Preferably, the transfer point is close to the riser, whereby the pressure drop is minimized.

A particular advantage of the invention is that the feed gas transfer telescope according to the invention can be a relatively simple device, for which only the fact that a sufficiently gas-tight connection is established between preferably a single feed gas manifold and preferably a single coal through the filling opening of the adjacent furnace chamber. The sealing and handling problems that arise with the known jumper pipes and are particularly difficult when bridging multiple furnace chambers, since two gas-tight pipe connections are to be formed at the same time, do not arise with the transfer telescopes of the invention.

Image_Image_of_Drawings

The invention is explained in more detail below by way of example with reference to the drawing.

FIG. 1 is a perspective view of a section of a coke oven battery with a suction of the charged gas.

FIG. 2 is a schematic illustration of a feed gas transfer telescope according to the invention, partly in vertical section.

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As can be seen from FIG. 1, the coke oven chamber 100 of the coke oven battery 101 is filled with coal 30 by a charging car 103 which is movable along the rails 102 on the coke oven ceiling 32, leaving a gas collection space 31 below the coke oven ceiling. As indicated by arrows A, part of the gases to be filled is sucked through the filling openings 1, 2, 3 and 4 into the known filling telescopes 5, 6 and 7 ^with annular slit chambers, see the detailed drawing of FIG. 1a. For clarity, only the filling telescope 5 and 8 is shown schematically. Through the annular slit chambers, the filled gases are led through the ducts with shut-off valves 12, 13, 14 and 15 to the gas collecting ducts 10, 11, 17 and 20. If necessary, the filled gases are cooled in a so-called mass cooler 16.

Downstream of the mass cooler 16 is a hot gas fan 18 with adjustable drive 19. The feed gases are then fed via line 20 and a charged gas transfer telescope 21 to the feed opening 22 of an adjacent furnace, see Figure 2, as indicated by arrows C, and through the riser 23, the coke oven batteries are sucked into the receiver 24.

Another portion of the gases to be filled is sucked, as shown by arrows B, through the riser 25 into the receiver 24.

By separating the suction of the filled gases according to the invention, the injection of pressurized water or steam injection into the risers can be reduced, thus saving energy and reducing the discharge of coal particles.

FIG. 1a shows an enlarged view of an example of a filling telescope 5 with an annular slit chamber. The right half of the figure shows the filling telescope 5 in the lowered position and the left half in the raised position. The filling telescope 5 consists of a flexible seal 5A, two telescopic tubes 5B and 5C and a sealing ring 5D for the filling opening frame on the coke oven ceiling 32, which is gas-tightly mounted at the filling opening. 5F such that between the telescopic tubes 5B, 5C on one side and between the telescopic tubes 5E. 5F, on the other hand, a downwardly open annular slit chamber R is formed, to which a line 5G is connected, to which the gas collecting line 9 is connected. Through the coal feed device 5H, the coal in the direction of arrow D is fed through the telescopic tubes 5F and 5E into the coke oven chamber 100. The feed gases, as indicated by the arrow E, are sucked through the annular slit chamber R and the conduit 5G into the gas collecting conduit.

As can be seen from FIG. 2, preferably a fixed gas-filled transfer telescope 21 consists of a resilient seal 21A on a single gas-intake manifold 20. two telescopic tubes 21B and 21C and a sealing ring 2ID for the filler opening frame 32 of the coke oven, which is substantially gas-tightly mounted at the orifice opening 22. The automatically operating lifting and settling device of the filler opening is preferably provided on the filler wagon 103 2 in the region of the filled gas transfer telescope, which is not itself shown in FIG. 2 because it is known.

Claims (6)

PATENT PROPOSALS Claims. cn ο. A method for removing gases produced by the charging of coke oven batteries with coal from a charging car by means of suction in which the charged gases are guided both through the riser of the charged furnace chamber and through a transfer tube movable with the charging car through the gas collection space of the adjacent furnace chamber and its riser into the coke oven battery collector, characterized in that a portion of the flue gases is sucked through more or through all the coke oven cavities by means of known annular slot-chamber filling telescopes or the like, through one or more gas collectors and by means of one or more transfer gas-filled telescopes, it is led through the filling opening or through several filling openings of the adjacent furnace chamber to its gas collecting space and through its riser to the battery collector coke ovens Method according to claim 1, characterized in that the suction power is controlled by recording the pressure and / or temperature generated on the filling telescopes and / or in the gas collecting line. Method according to claim 1, characterized in that the suction power is controlled according to the time course during the filling time. 4. Apparatus for the removal of coke oven gas by the exhaust gases of a coke oven, in particular for carrying out the method according to one 10 of claims 1 to 3, having a transfer device arranged on the charging car that is connectable to an adjacent furnace chamber, characterized in that for more or all of the filling openings (1, 2, 3, 4) of the filled chamber (100) coke ovens are provided by known charging telescopes (5, 6, 7, 80) with an annular slot chamber (R) or the like, that the annular slot chambers (R) or the like are connected via a single or multiple gas-filled manifolds to a single or having a plurality of transfer telescopes (21), and that the one or more transfer telescopes (21) is arranged on the charging car (103) in a position allowing fluid connection of the transfer or transfer telescopes (21) to the single or multiple feed openings (1, 2, 3, 4) adjacent furnace chambers. Apparatus according to claim 4, characterized in that one or more hot gas fans (18) or blowers with an adjustable transport flow drive (19) are disposed in the gas-intake manifold. Apparatus according to claim 5, characterized in that temperature and / or pressure probes for actuating the fan (18) are provided on more or all of the filling telescopes (5, 6, 7, 8) and / or in the gas-intake manifold. hot gas or blower.