DE2526126A1 - SYSTEM FOR THE SAFE HANDLING OF POWDERED COAL - Google Patents

Description

Armco Steel Corporation
703 Curtis Street
Middletown, Ohio, USA

Our reference: A 1735

System for the safe handling of powdered coal

The invention relates to a system for the safe handling of pulverized coal; it relates in particular to a system That is when pulverizing, drying and collecting coal in an oxidizing atmosphere, which can cause an explosion or an Fire could entertain, can be applied.

Bag filters can be used in such coal preparation systems and these filters are particularly prone to explosions and / or fires because the charcoal can collect in the bag filter and ignite spontaneously.

The inventive. Powdered Coal Safe Handling System can be used as a coal preparation part of a Furnace coal feed system or other arrangements be used in which pulverized charcoal is a reaction

Dr. Hn / de

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participant, it can also be used in a coal gasification system.

So far, coal pulverization (coal grinding) has been carried out without fire and exposure protection. With the most expedient In applications, the finely divided coal is fed directly into burners or combustion chambers. The air that carries them is used alone or as part of the air required to burn the coal. In such applications it leads Premature ignition does not result in explosions if the speed of the air carrying them is above the speed of flame spread is mistaken for pulverized (ground) coal. Burning coal particles become simple blown into the combustion chamber. In some applications to which the system according to the invention relates, however, the burning particles can get into the bag filter or reservoir and cause an explosion or a Cause fire. The system proposed according to the invention is intended to prevent such explosions or fires.

The explosion detector components contained in the system according to the invention and explosion extinguishers are under the registered trademark "Fenwal" by the company Fenwal Incorporated available in the market. The fire detector components (fire alarm components) and fire extinguishing components are under the registered trademark "Cardox" of Chemetron Corporation available in the market. So far, however, none of these components are in systems for handling of coal dust has been used in the manner proposed here. Against this are both the "Fenwal" and the

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"Cardox" systems in a wide variety of other large-scale systems Procedure has been used.

The invention relates to a system for safe handling of pulverized coal, which is characterized by the following combination: a loading device for introducing raw coal into the system; a grinding device for grinding and heating those from the loading device ingested lump coal to a dry powdery state; a separator for sorting out the fines; a coal powder storage container; a filter device; a first pipe, which the grinding device connects to the separating device; a second tube which connects the separator directly to the storage container connects; a third pipe connecting the separating device to the filter device; a fourth pipe, which connects the filter to the reservoir; a variety of explosion detectors; a variety of explosion extinguishing * facilities; a device connecting the explosion detectors and explosion extinguishing devices to one another, see above that when pressures arise that are above normal operating pressures, the explosion extinguishing equipment in Operation to be set; wherein an explosion detector in close communication with the grinding device and an explosion extinguishing device represents the delivery of an explosion-suppressing agent to the grinding device; an explosion detector in close connection with the separator and an explosion extinguishing device for the delivery of the explosion suppressant stands on the separating device; an explosion detector in close connection with the filter device

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and / a explosion extinguishing device for the delivery of the explosion suppressant stands on the filter device; and means that the explosion detectors with the Charging device connects, wherein the grinding device and the separating device are arranged so that then, when the explosion extinguishing devices are put into operation, the loading device, the grinding device and the Isolation device are deactivated at the same time, whereby the system is put out of operation.

The essence of the present invention is that the known "Fenwal" components are combined into a single process system for the safe processing of a coal mill and coal stream; in a corresponding manner, the known "Cardox" components can also be incorporated into this system. The present invention is primarily directed to the strategic placement of the various detectors and extinguishers in the coal grind and coal stream. The explosion extinguishing agent used in the system of the present invention can be bromochloromethane or any similar substance. The fire extinguishing agent can be carbon dioxide. In a preferred arrangement, when the fire is first indicated, the system is designed not only to extinguish the fire and disable the entire system, but also to put the Fenwal ^u components inoperative, depending on the circumstances need to be set, thereby saving the cost of replacing the bromochloromethane, etc. However, if the explosion is the first detected event, the "Fenwal" extinguishers are put into operation, thereby suppressing the explosion and that

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System is put out of operation until appropriate corrections can be made.

The invention is described below with reference to the enclosed Drawing that is a single schematic diagram represents a coal preparation system in which the Explosive components and fire components are used, are explained in more detail.

A typical coal preparation system in which the inventive System for the safe handling of ground coal can be applied from a raw coal storage bunker with a charging device 11 for introducing pieces of raw coal into a grinding device 12 through the line exist. A coal feed regulator 13a can be used to properly control the feed the grinding device 12 to ensure. It goes without saying that these devices are generally designated by the number 14 provided, with the help of which hot air is introduced directly into the grinding device 12. The facilities 14 can for example, consist of a fan and a directly heated heater. The grinding device 12 and the heating device 14 are provided with devices, not shown, but known to those skilled in the art, to measure the temperature of the Air in the grinding device according to, among other things, the moisture content of that introduced into the grinding device Regulate lump charcoal. As a rule, such a content can be close to 6%. It is generally advisable to when the coal particles exiting the grinder have a low surface moisture content, which is in the Is close to 0.5%. It is also appropriate that the

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80% of the particles leaving the grinding device pass through a mesh with a mesh size of 0.074 mm (200 mesh); this means that the pulverized coal particles have a texture similar to that of ordinary face powder. Because the dusty nature of pulverized coal and estates: In the absence of an atmosphere that can sustain the combustion, there is a risk of explosion and fire in the system.

The ground coal leaves the grinding device 12 through a coal tube 15 into a cyclone separator 16. As a rule, 90 % of the coal powder introduced into the known cyclone separator 16 is discharged through tube 18 directly into the coal storage container 17. The fines, which make up the remaining 10% of the ground coal introduced into the cyclone separator 16, pass through the pipe 19 and the pipe extensions 19 a and 19 b into a pair of bag filters 20 and 21 or the like Fines collected and 21 are discharged through the pipes 22 and 23 into the coal voyage. * - storage container 17.

The present invention relates to protecting the above-described portion of the coal preparation system from damage by explosion or fire (Erand). What happens after the coal has been collected in the storage container 17, is of lesser importance to the present invention. However, this coal can, for example, through the tubes 24 and 25 are introduced into the coal containers 26 and 27 with discharge lines 28 and 29 leading to the charging device for a blast furnace and the like (not shown) belong. But it can also be that the coal from the storage container or

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Reservoir 17 transported through line 30 into a container 31 which can be connected to a coal gasification system (not shown). It is also known, for example, the part of the system from the container 17 to the containers 27 or 31 by using an inert gas in the U.S. Patent 3,720,351 indicated general manner to protect.

In the coal grinding process (coal pulverization process) carried out with the above device, a relatively moist lump coal is introduced from the bunker 10 by means of the device 11 into a coal grinding device 12 which has a classifying device (not shown) which is provided in the upper section of the grinding device. The ground coal is extracted from mill 12 under positive pressure using air as a carrier by conventional means (also not shown) through tube 15, which is typically a 76.2 cm diameter tube (30 insches) can act over a distance, which is usually in the vicinity of about 39 m (130 ¹ ), transported into the cyclone 16 for further distribution in the process. As indicated, the outlet side of the cyclone 16 is connected to two bag collectors 20 and 21 which may typically be located about 12 m (40 ') from the top of the cyclone (although here of a positive pressure system the Talking about, it goes without saying for a person skilled in the art that a negative pressure system can also be used).

The protection afforded by the present invention begins both

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Grinding device 12 and comprises the connecting pipelines up to the cyclone outlet and the two dust saramel containers 20 and 21.

The explosion detector section of this system consists of pressure sensitive explosion detectors which are sensitive to the Address pressure wave generated during an incipient explosion. The detector, in turn, completes a circuit by the energy unit, whereby any high-speed discharge extinguishing device, which is electrically connected to the energy unit, is put into operation. As stated, the sensor devices and extinguishing devices are on. Oh known as the 'Fenwal' ^ facilities available on the market demonstrate. However, the appropriate arrangements of these known devices in a coal preparation system are new and of great importance. A more detailed description of the detectors and the extinguishing equipment, regardless of whether they are of the "fenwal" type for suppression of explosions or those of the "Cardox" type for extinction is about fires, therefore need not be discussed in more detail. The operation of these facilities is a skilled person known and can be read in the published literature regarding the "Fenwal" and "Cardox" systems. Be it However, it should be noted that these detector devices both because of their sensitivity to UV light changes and can be actuated against changes in temperature as well as against changes in pressure.

When using the ⁿ Fenwal ^H components in the system according to the invention for the safe handling of ground coal

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(pulverized coal), the first explosion detector 32 is arranged in communication with the outlet pipe 15 of the grinder 12; in normal practice this means that it is about 30 cm (I ¹ ) from the grinder. The second explosion detector 33 is also arranged on the outlet pipe, but further above the mill 12; in practice this means that this pipe 33 is about 9 m (30 *) away from the mill 12.

To facilitate understanding of the invention, the same symbol is used for all explosion detectors, while a different symbol is used for all explosion extinguishing equipment; in a corresponding manner becomes a Another symbol is used for the fire detectors, while another symbol is used for the fire release devices will.

The third explosion detector 34 is arranged in the vicinity of the upper end of the air conveying pipe or the coal pipe 15 and in practice this corresponds to a distance of about 30 m (100 ') from the mill 12. The fourth detector 35 is arranged on the outlet pipe 19 of the cyclone 16. The fifth detector 36 and the sixth detector 37 are on the Inlet pipes 19a and 19b for the dust collectors represented by the bag filters generally 20 and 21 are arranged. Of the The seventh explosion detector 38 and the eighth explosion detector 39 can be placed on the dust collectors 20 and 21 on their inlet side be arranged above the bottom grate and on the bottom of the filter box (not shown).

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For the suppression of the explosion there are a number of extinguishing devices, which are on the explosion detectors address, strategically arranged. A first extinguishing device 40 is above the coal grinding device or Arranged mill 12, which discharges its agent into the outlet pipe 15 and into the grinding device 12 downwards. This is generally a 10 liter high speed discharge eraser 40.

A second high speed discharge canceller is arranged somewhat further away from the mill 12 and is oriented so that it follows its agent through the pipe 15 drains down into the grinding device 12. In practice it can it is a 5 liter extinguishing device.

In the direction of the upper end of the coal tube or the air conveyor 15 are third and fourth explosion extinguishing devices 42 and 43 arranged and oriented in such a way that both extinguishing devices 42 and 43 act as agents through the Release pipe 15 downwards into grinding device 12. As a rule, these extinguishing devices are those with a capacity of 10 liters.

In order to protect the cyclone 16, a fifth explosion extinguishing device is at its upper portion behind the outlet pipe 19 44 provided; in practice this is usually a 5 liter high speed discharge extinguisher. This extinguishing device 44 lets its agent ■ through a distributor arrangement (not shown), which the Agent distributed in the cyclone air, into the cyclone 16.

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On the outlet line 19 of the cyclone 16, a sixth explosion extinguishing device is provided, which its agent by drains a pipe down into the interior portion of the cyclone. In practice it can be with this extinguishing device

45 also have a capacity of 5 liters.

On the loading pipes 19a and 19b each of the two dust collectors 20 and 21 are seventh and eighth extinguishing devices

46 and 47 arranged. These extinguishers 46 and 47 are attached to the pipe and they let their agent through pipes 19a and 19b into dust collectors 20 and 21. As a rule, these extinguishing devices 46 and

47 are those with a capacity of 5 liters. In the container (funnel) of each of the dust collectors 20 and 21 9th and 10th extinguishing devices 48 and 49 are arranged. Each of these extinguishers 48 and 49 is below the Floor grate (not shown) arranged so that they can their agent through a distribution device (also not shown), which distribute the agent in a cone of 120, drain into the respective container (funnel). In the In practice, these extinguishing devices 48 and those with a capacity of 10 liters.

For further protection are adjacent to the container section (funnel section) and at the base of the filter bags (not shown) eleventh and twelfth explosion extinguishing devices arranged above the floor grate so that they their agent Drain into the respective collectors 20 and 21. In practice, these are preferably those with a capacity

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of about 30 liters. These extinguishing devices 50 and 51 can also be used to suppress the fire and the Introduction to the bag housing section of the collectors 20 and 21 to promote.

As stated above, the extinguishing agent used in these 12 extinguishing devices 40 to 51 can be bromochloromethane or an equivalent substance. The Mechanism after these agendas stop the combustion, it can be that of chemical inhibition. Unless the combustion is a chemical reaction, it depends on certain residues in the pre-flame zone to branch these chains thereby maintaining an advancing flame front. The halogenated hydrocarbons, such as bromochloromethane and Bromotrifluoromethane, react with these residues, causing the Chains to be completed. As also already indicated above, it is obvious to the person skilled in the art that the 8 sensors or explosion detectors 32 to 39 operative with different ones of the 12 high speed discharge explosion extinguishers 40 to 51 are connected so that they protect the parts of the system in which they are installed. All of these sensors are also operational with the various facilities for commissioning the coal preparation system connected so that if any of the sensors are switched on, the system itself is completely disabled. The details of these arrangements last described need not be discussed in more detail here, since they are from the schematic representation of the accompanying drawing emerge.

The special arrangements of the 8 sensors 32 to 39 and

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of the 12 extinguishing devices 40 to 51 are for the successful "This special system work for safe handling of pulverized (ground) coal is critical and essential to the present invention.

Protection against fire (fire) in contrast to an explosion can also be incorporated into this system. As already indicated above, there is a viable way W _e ise is the well-known "Cardox" detectors and -Löscheinrichtungen to use, can be initiated with the help of carbon dioxide into the parts of the system that are particularly sensitive to the risk of fire. For this purpose, a first sensor 61 is arranged in connection with the grinding device or mill 12. A second sensor 62 is connected to the cyclone 16 via its outlet pipe 19. Third and fourth sensors 63 and 64 are connected to filters 20 and 21. These four sensors 61 to 64 naturally protect the major parts of the coal preparation system from fire by the extinguishing equipment to which they are operatively connected. As indicated above, the explosion suppression system is primarily aimed at protecting this part of the coal processing system. With respect to fire, however, it has been found useful to incorporate additional sensors and extinguishing devices into those parts of the auxiliary systems which are connected through the coal storage container 17 to the coal preparation system. For this purpose, fifth and sixth sensors 65 and 66 are provided in the direction of the upper and the discharge end of the coal storage container 17 and they are arranged so that they are against fire not only in this container _} but also in the auxiliary systems ^

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as represented by reference numerals 26, 27 and 31 are, are sensitive.

The fire extinguishing equipment used to protect the system can be arranged in the following way: three of them are connected to the grinder 12, as by the numerals 71, 72 “And 73 indicated. A fourth extinguishing device is with the Zyklon 16 connected as indicated by the numeral 74. Four more extinguishers 75, 76, 77 and 78 are within the baghouse filters 20 and 21, as indicated, arranged. Ninth, tenth and eleventh extinguishing devices 79, 80 and 81 can be connected to the coal storage container 17, while the last three extinguishers 82, 83 and 84 can be connected to the auxiliary systems indicated by the reference numerals 26, 27 and 31.

It is a matter of course for a person skilled in the art that the six Sensors C1 to 66 with the 14 extinguishing devices 71 to 84 are surgically linked in a conventional manner. The details these connections are therefore only explained schematically in the drawing and in the present description. the the actual operation of these devices is not the essential point of the invention, but much more important is their specific arrangement within the coal preparation system. It is also clear that the six sensors 61 to 66 are connected to the facilities which operate the coal preparation system, see above that if any of the sensors are switched on, the entire system is put out of operation.

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For further description it should be noted that the pulverized (ground) discharged from the mill 12 Coal can have a temperature of about 68.5 C (155 F) while the heated air in the bag filters 20 and 21 is a May have a temperature of about 43 to about 51.5 ° C (110 to 125 ° F). These temperatures are required to achieve the "Removal of surface moisture from the coal particles to ensure. These temperatures are also responsible for making the system explosive and flammable is, and the present invention is of course aimed at suppressing these occurrences before actually insert. A typical coal processing system can process 10 to 16 tons per hour as well the temperature of the air blown into the grinding device 12 depends on the temperature of the ambient air, the humidity the coal and the amount of coal. If large quantities of a relatively moist coal are used, a hotter air must be blown into the grinding unit.

In the coal preparation system, air (which naturally contains oxygen) is used as a carrier and dadur di is used increases the likelihood of an explosion and / or fire. A fuel (the coal) plus oxygen (in the carrier) p] us an ignition device (a relatively high temperature) are the cause of the problem. The ignition can also be caused by a trace metal (foreign metal) in the coal, which rubs on the metal pipes and the like, whereby sparking may occur. Preferably magnets are arranged in certain areas to

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to catch magnetic foreign metal before it gets into the Coal processing system arrives; such a magnet is shown schematically by the number 90, for example.

In the known coal processing systems in which the ground (pulverized) coal was directly introduced into a blast furnace and the like without interruption the risk of explosion and / or fire (fire hazard) is not so great. The introduction of bag filters and the like slowed down however, the way of working and increased the dangers. By virtue of the same characteristic, it appears that therefore, because the movement of the ground coal from the grinding device to the cyclone separator is relatively fast is, the dangers, although present, are not as pronounced as when the speed is slower will, such as B. from the separator through the filter into the reservoir.

When setting the explosion sensors, the normal pressure value in the coal preparation system is first determined. The 8 sensors 32 to 39 are then set so that they are slightly higher than the normal Process operating pressures are sensitive. When such higher pressures are measured, the explosion extinguishers put into operation.

The normal operating temperature of the coal preparation system and the 6 sensors are determined in a corresponding manner 61 to 66 are set so that they are sensitive to temperatures slightly above the process

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temperatures are, whereupon the fire extinguishing equipment in Operation are set so that they inject carbon dioxide into the system, for example. In a preferred arrangement work these fire extinguishing devices so that they eliminate a source of ignition, thereby both preventing an explosion and suppressing the fire, and with this arrangement, the activation of the fire sensors and fire extinguishers can suppress the explosion Switch off the system, which means that it is not to recharge this latter system; in either case, the oparator can do this manually, as the circumstances require require it.

Manually operated fire extinguishers can be located at any desired point in the system. Three of these are indicated in connection with the coal bunker 10, the storage container 17 and the auxiliary systems 26, 27 and 31 by the numbers 91, 92 and 93. Even when a substantially inert gas such as CCL plus nitrogen _i is used, e.g. B. in the storage tank and in the auxiliary systems, some oxygen may be present. If this gas is kept at a relatively low oxygen content of about 1/2%, the hazards are minimal; however, when the oxygen content exceeds 6 to 8%, the dangers increase. These additional ⁿ Cardox ^u extinguishing devices 91 to therefore represent an additional security measure.

Although the invention has been explained in more detail above with reference to preferred embodiments, it is for the expert it goes without saying that they are by no means on this

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is limited, but rather that these can be changed and modified in many ways without this the scope of the present invention is departed from.

Claims: 509881 / 0A12

Claims (8)

- 19 claims 1. System for the safe handling of pulverized (ground) coal, characterized by the following combination Features: a feeder for introducing raw coal into the system; a grinding device for grinding and heating the lump coal picked up by the charging device until one is obtained dry powdery state; a separating device for separating out the fines; a coal powder storage container; a filter device; a first pipe connecting the grinder to the separator; a second pipe which connects the separating device directly to the storage container; a third pipe, which the The separating device connects to the filter device; a fourth pipe connecting the filter to the reservoir; a variety of explosion detectors; one Variety / on explosion extinguishing equipment; one the explosion detectors and the explosion extinguishing equipment interconnecting device, so that when pressures arise which are above normal operating pressures the explosion extinguishing systems are put into operation; with an explosion detector in close association with the grinding device and an explosion extinguishing device for the delivery of a suppressing the explosion By means of the grinding device is an explosion detector in close connection with the separating device and a Explosion extinguishing device for the delivery of the explosion suppressant to the separating device and an explosion detector in close connection with the filter unit 509881/0412 direction and an explosion extinguishing device for the delivery of the explosion suppressant to the filter device stands; and means connecting the explosion detectors to the loading means connects, wherein the grinding device and the separating device are arranged so that when the explosion the loading device, the grinding device and the Disconnection device are switched off at the same time, whereby the system is put out of operation. 2. System according to claim 1, characterized in that the separating device has a cyclone separator or consists in that the filter device has a pair of bag filters or consists in that the third Pipe has two branch pipes, each of the pipe branches extending from the cyclone separator to extends to one of the bag filters in each case; that eight of the explosion detectors are arranged as follows: one closely adjacent to the grinder, two in the first tube, one geridtötajf the grinder and the other one near the cyclone separator, one in the third pipe near the cyclone separator, one in each of the two branch pipes and one in each of the two bag filters; that twelve of the explosion extinguishers are arranged as follows: one in. near the grinding device and facing it, three in the facing the first pipe and the grinding device, one in the third pipe and facing the cyclone separator, one in the cyclone separator, one each in the 509881 / 0A 1 2 facing both manifolds and the bag filters and two in each of the bag filters; being facilities connect the explosion detectors to the loading device, the grinding device and the separating device in such a way that that when the explosion extinguishers are turned on, the feeder, the grinder and the disconnection device are switched off at the same time, whereby the system is put out of operation. 3. System according to claim 1 or 2, characterized by a device which the explosion detectors with the feeder connects; a variety of fire detectors; a variety of fire extinguishing equipment; a device which connects the fire detectors and the fire extinguishing systems to one another in such a way that, if temperatures above the normal operating temperature occur, these fire extinguishing systems are switched on will; and a device which connects the fire detectors with the loading device, the grinding device and the separating device, so that when the fire extinguishing devices are switched on, the loading device, the grinding device and the separating device are switched off at the same time, whereby the System is taken out of service. 4. System according to claim 3, characterized by an additional device which the fire detectors with connects the explosion detectors, so that when the fire detectors and fire extinguishers are switched on the explosion detectors and thus the explosion extinguishing certificates 509881/04 12 directions are inactivated so that no recharging of the explosive devices is required when through Operation of the fire extinguishing equipment the situation has been resolved. 5. System according to claim 1, characterized in that two filter devices and a manifold of the third pipe to a filter device are present, so that both filter devices carbon powder from the separating device record, with an explosion detector and an explosion extinguishing device for each of the filter devices are provided. 6. System according to claim 5, characterized in that the separating device is a cyclone separator and that the Filter device consists of a pair of bag filters. 7. System according to claim 6, characterized by two "additional explosion solutions see devices for the cyclone separator, wherein the one explosion extinguishing device is arranged in the third tube and facing the separator is, while the other explosion extinguishing device is arranged in the cyclone separator. 8. System according to claim 6, characterized by two additional explosion extinguishing devices for each of the bag filters, so that three explosion extinguishers for each Filters are present, with two of the three explosion extinguishers in each of the bag filters and the third of the three Explosion extinguishers are placed in the pipe extending from the cyclone separator to each bag filter and face the respective bag filter. 509 £ 8iy (H12