DE3340936C2 - - Google Patents

Description

The invention relates to a combustion device for a solid fuel according to the features of the preamble of claim 1. A combustion device according to the preamble of claim 1 is from US-PS 34 13 935 known. In this device, one is full constant combustion of the fuel is not guaranteed, and the fire can go out unintentionally.

With other conventional combustion devices for a solid fuel is in the combustion chamber a roasting device is provided from a flat plate, at the center is a number of louvers in one specified position. When burning the solid fuel becomes the solid fuel in one stacked at the specified height on the roaster, and the stacked fuel is by means of a suitable ignition device ignited and continuously burned (see the Japanese utility model publication NEN 36 174/1964, 36 175/1964 and 23 003/1965). With these Combustion process, the solid fuel to be used when using the fire over a long period Maintained for a period of time. When burning it falls then when a solid fuel with an ash content of no more than 10% is used by the Space after the roasting facility  below, which leads to a reduction in heat utilization. To prevent this disadvantage, if one remains solid fuel with an ash content of no less than 10% is used, this in the form of ash with the original shape of the solid fuel also after burning on the roaster without going down to fall, so that heat utilization for a long time span can be maintained. In this case, however the amount of ash that remains after burning, increases, which requires much care to eliminate them changes, and also leads the selection of the starting material for the fuel and the formation of the same, that the Costs are increasing. To overcome these drawbacks, already the use of a solid fuel with low proposed according to ash content, so that hardly any risk there is air pollution and the problem of Eliminate the residue left in the incinerator Ashes can be loosened.

The object of the present invention is to burn Low fuel solid fuel generation device according to ash content to create an improvement in the Efficiency when using the solid fuel with low ash content allows the arbitrary appearance prevented from unintentionally extinguishing the fire and the reduce the remaining amount of unburned substances device.

This object is achieved by the characterizing features of Claim 1 solved.

The firm Fuel is placed on a flat plate without louvers brings. There is a cylindrical body on the flat plate provided, which is a combustion chamber (combustion chamber) provides and surrounds the solid fuel. Between the un lower edge of the cylindrical body and the flat plate a narrow, air-absorbing space is featured see that has a width that corresponds to the exhaust air volume in the ver relationship stands. There is a retainer on the flat plate Gel provided, which has such a shape that it too  its upper middle section gradually tapered where returned by the solid fuel in the form of an arc will hold.

With such a structure as described above has been in the combustion chamber even then, when the solid fuel produces high burns temperatures burns, causing cracks or atomization occurs, the solid fuel that has become finely divided, held by the retaining cone and the flat plate without falling off and without being act that the solid fuel on the midsection becomes lower with higher temperatures. In this way the solid fuel can continue with a suitable one Amount of air to be burned naturally through the air-absorbing space a small Width along the sloping surface of the retention cone is sucked in, which is in a warm state, so that the solid fuel burns almost completely, without the fire going out in between what is caused by the Falling of the finely divided solid fuel or through cause the solid fuel to collapse itself gently.

The invention is described below with reference to the accompanying drawings explained in more detail. It shows  

FIG. 1 is a central vertical sectional view of the essential part of the Verbrennungsvorrich processing according to an embodiment;

Fig. 2 is a perspective view of the essential part of the combustion device according to another embodiment;

Fig. 3 is a central vertical sectional view of the combustion apparatus according to a further embodiment in operation;

Fig. 4 is an enlarged plan view of the ignition device according to another embodiment;

Fig. 5 (a) is an enlarged top plan view of the essential part of the ignition device according to an embodiment anderern; and

Fig. 5 (b) is an enlarged vertical sectional view of Fig. 5 (a).

In the figures, an embodiment of the Burn comprises drying apparatus essentially a retaining plate 2 which retains the solid fuel with a low ash content A, a cylindrical body 3 which is mounted on the retaining plate 2 and surrounds the solid fuel A, a retaining cone 15 which by protrudes into the cylindrical body 3 on the central portion of the retaining plate 2 , and an ignition device 12 with electrodes 13 .

The cylindrical body 3 may have a cross section of various shapes, for example a circular, octagonal, hexagonal, pentagonal, square or triangular cross section, as required at the position in which it is attached or depending on the structure.

The retention plate 2 mainly consists of a flat plate of a predetermined thickness made of metal. On the upper surface of the plate 2 , a heat insulating layer 21 is applied by applying an insulating material (for example, pourable heat insulating brick) with a predetermined thickness. On the peripheral edge portion of the lower surface of the plate 2 , hanging legs (supports) 22 are provided with a fixed length.

The cylindrical body 3 mainly consists of a cylindrical housing made of metal with a predetermined thickness. On the inner wall of the cylindrical body 3 , a heat insulating and warming layer 31 is applied by applying a refractory material which is firm and rich in heat insulation and warmth properties. The inner surface of the layer 31 is in the form of a tapered surface that gradually tapers downward. On the outer peripheral surface of the metallic housing made of metal to the lower end un projecting pins 33 are provided. On the other hand, at the specified position of the cylindrical housing 34 inserted in the lower end portion of the cylinder made of metal, tapered grooves (tapered grooves) are engraved which communicate with the pins 33 , thereby rotating the cylindrical housing 34 , to raise and lower it. As a result, the width of the air gap 36 that exists between the lower edge of the cylindrical housing 34 and the upper surface of the retaining plate 2 can be regulated.

If the cylindrical housing is square, it can by moving up and down by means of a conv tional facility raised and lowered.  

It has been experimentally confirmed that the size of the air intake opening 36 has a great influence on the combustion of the solid fuel with a low ash content. By setting a suitable balance between the intake and the discharge of air, the solid fuel can be actively burned even if it is not thickly piled up. Therefore, the use of a special fan is not necessary. If the position of the air intake opening 36 is too high, a large amount of cold air flows into the combustion chamber 4 , and thereby the rate of heat dissipation becomes greater than that of the heat generation, so that the atmospheric temperature in the combustion chamber 4 drops, resulting in this that the fire goes out in the solid fuel. If the position of the air intake opening 36 is too deep, the amount of air flowing into the combustion chamber 4 decreases too much, so that there is a risk that the solid fuel with a low ash content A will temporarily go out during combustion or occasionally kick back he follows.

Fig. 1 shows a central vertical sectional view of the combustion apparatus of the invention according to one embodiment, wherein the ignition device is mounted on the retaining cone 15 12. In Fig. 1, each ignition device 12 is applied to the conical surface of the cone 15 , which protrudes upward into the cylindrical body 3 from the retaining plate 2 , and the electric denabschnitt 13 is pulled out of the lower portion of the cone 15 to electrical To supply energy.

The Fig. 5a shows a further embodiment, the difference from the first execution form in the integral provision of an ignition device 12 on the retaining plate 2 is made.

The igniter 12 , as shown in FIG. 5a, which has the shape of a ladle or a pumpkin and comprises a ceramic heater, is attached to the upper surface of the heat insulating and heat retaining layer 31 , which is on the upper surface of the Retaining plate 2 is located. The electric 13, 13 'of the ceramic heater are arranged in the outer side of the combustion chamber 4 , which is surrounded by the cylindrical body 3 , so that it is against the direct action of the high temperature atmosphere in the combustion of the solid fuel with low ash, such as . B. petroleum coke and the like are protected. Alternatively, there are a number of ceramic heaters that use conventional shapes, e.g. B. plates, squares, round rods, tubes and the like. On the inner upper surface of the heat insulating layer 31 is provided ( Fig. 5b), and the electrode of each ceramic heater is protected similarly as described above, thereby causing electrical currents on the outside of the combustion chamber can be switched on.

The ignition device 12 shown in Fig. 3 comprises a gas burner 14 which is fixed on the central upper surface of the retaining plate, a retaining cone 15 which is loosely inserted into the lower edge of the cylindrical body 3 and fixed on the upper surface of the gas burner 14 is, and a pipe 14 ' for introducing fuel into the gas burner 14 , which is passed through the retaining plate 2 up and down.

In the embodiment shown in FIG. 3, the combustion of the low-ash solid fuel can be effected in a similar manner to that of the first embodiment, and moreover, the ignition of the solid fuel can be easily effected simply by lighting the gas burner 14 .

FIG. 4 shows a top plan view of the retaining plate 2, wherein the difference from the first embodiment is that on the portion of the upper peripheral edge of the retaining plate 2, the Zündeinrich tung 12 is provided. In Fig. 4 Darge presented ignition device 12 penetrates a carbon rod 16, the retaining plate 2 in the portion to the peripheral edge, and a metal plate 17 is provided in such a way that it is vibrated with the carbon rod 16 between the carbon rod 16 and the Metal plate 17 comes into contact when a DC voltage is applied.

The operating device 17 ', which causes the oscillation of the metal plate 17 , is arranged outside the combustion chamber 4 , and the metal plate 17 is vibrated by hand or by means of a motor to produce an arc between the carbon rod 16 and the metal plate 17th The rest of the structure is the same as that of the first embodiment, so that it is unnecessary to discuss the same. In this embodiment, the combustion of the low-ash solid fuel can be effected in a similar manner to that of the first embodiment, and the operation can be simplified much more because the ignition of the solid can be easily effected by using the metal plate 17 vibrated to produce an arc.

The reason why, in the above-described embodiment, the carbon rod 16 and the metal plate 17 are provided on the portion to the peripheral edge of the retaining plate 2 is to prevent the metal plate 17 from being prevented from swinging in the presence of solid fuel A. which is introduced into the combustion chamber 4 . Therefore, if the swinging of the metal plate 17 or the reverse movement of the metal plate to the carbon rod 16 can be ensured, the provision of the carbon rod and the metal plate on the center of the retaining plate is more favorable for improving the inflammation efficiency.

In order to ensure the oscillatory movement of the metal plate 17 , the carbon rod penetrates, for example, the central section of the retaining plate 2 , and it is fixed in such a way that it stands firmly, while at the same time a hollow groove is engraved on the fixed position on the upper surface of the plate 2 , which is opposite to the carbon rod 16 , so that the metal plate 17 engages in the hollow groove in the state in which it can be moved back and forth. With this construction, there is no fear that the solid fuel falls into the groove because the solid fuel with a low ash content A is larger than the width of the hollow groove. In this way, a smooth reciprocation of the metal plate 17 is possible, and therefore the ignition of the solid fuel on the central portion of the retaining plate can be effectively aimed if a large amount of the solid fuel is present.

In an embodiment not shown, a plurality of combustion chambers 4 form a large combustion chamber, and the combustion of the solid fuel A can be effected in each cylindrical body for the combustion at the same time. As a result, the radiant heat generated in each cylindrical body works together, whereby the amount of heat of the entire combustion device and the amount of exhaust gas formed can be remarkably increased.

Accordingly, for example, by introduction a large amount of exhaust gas into a drying chamber (in the drawing not shown) to dry in it the materials are dried effectively.

In this case, it is preferred to use petroleum coke as solid fuel A. Since the petroleum coke has an ash content of 1% or less, the exhaust gas contains hardly any dust, and therefore there is a low risk that an unfavorable influence is exerted on the material to be dried. In addition, the use of the low ash solid fuel in a thin layer state as a whole can result in effective combustion.

In the embodiments shown in the figures, the retaining cone 15 ensures that the air flow circulates excellently during combustion. In addition, the ash remaining on the retaining cone slides down along the surface of the retaining cone so that the fuel does not collapse on the central portion of the retaining plate, which is often the case when using the flat retaining plate or a metal plate which is the bottom of the Combustion chamber corresponds, whereby the combustion efficiency can be improved.

According to the solid burning fabric with low ash content, on the cracks (fragments ke) arise during combustion, on the restraints plate over the restraints cone are held back and there is also an airspace between the bottom of the solid fuel the cylindrical body surrounding the retaining plate, which forms a combustion chamber, and the retention cone, and therefore the combustion can be effected completely without a roasting device is provided. In addition, the Stö tion are eliminated that the solid fuel determined treatments must not be subjected to one to become fine powder or to reshape it to prevent the solid fuel from burning atomized, like this with conventional solid fuel, such as B. different types of coke can be observed and accordingly a solid fuel that cannot has been processed in the combustion with high we efficiency can be used. Invention can expediently according to the generation of harmful gases and air pollution cleaning caused by the ashes previously prevented be changed, and it can be cheaper like solid fuel it is used. Furthermore, the disorder be eliminated that a roasting device with a speci fish shape or a specific structure the object must be designed and manufactured, or it can be an unfavorable cause of the increase in manufacturers costs are eliminated. In the invention Incinerator is provided by the retention cone ensures that the combustion air flow rises smoothly, and the collapse of the solid burning material in the middle section during combustion can ver be prevented, although the superficially lagging Ash slides down on the cone, causing the ver combustion efficiency can be significantly improved.

Claims (4)

1. Combustion device for a solid fuel with low ash content, with a retaining plate for receiving the fuel, which has no grooves or slots, a cylindrical body, which sits on the retaining plate and defines a combustion chamber, being between the lower edge of the cylindrical body and the retaining plate an air-absorbing render space is formed, characterized by a on a central portion of the retaining plate ( 2 ) provided retaining cone ( 15 ) which projects into the cylindrical body ( 3 ). 2. Combustion device according to claim 1, characterized in that the retaining cone is provided with a space at a fixed distance from the inner lower peripheral edge of the cylindrical body ( 3 ). 3. Combustion device according to one of claims 1 or 2, characterized in that an ignition device ( 12 ) is provided on the retaining plate ( 2 ) or the retaining cone ( 15 ). 4. Combustion device according to one of claims 1 to 3, characterized in that the combustion chamber ( 4 ) formed by the cylindrical body ( 3 ) has such a shape that it tapers downwards.