DE2624307C2 - Device for regulating and / or monitoring the conditions inside a pile of combustible material - Google Patents

Description

The invention relates to a device for regulating and / or Monitoring the conditions within a stack of combustible material, according to the preamble of the single claim.

The spontaneous ignition of organic and inorganic substances is a very complicated process. It very specific requirements must be met for spontaneous combustion to occur. If you have been so far does not yet know all the conditions under which spontaneous combustion can occur, but we do know that spontaneous ignition requires very precisely defined environmental conditions. Belong to such conditions i.a. Appropriate thermal insulation, as well as adequate ventilation, albeit the amount required Air is very little. We also know that the heating process, the stage of ignition precedes, d. H. the uncontrolled oxidation process, either caused by thermophilic bacteria or by some other type of auto-oxidation as a result of production processes. That the former applies to a range of organic substances such as sawdust, wood waste, hay, peat, etc., while the latter is the case with a number of other self-combusting materials, e.g. B. hard coal fiber boards, Iron powder and iron filings etc. The presence of contamination has a catalytic effect! Effect. In connection with moisture conditions often arise in which spontaneous combustion is possible.

However, the aforementioned thermal insulation and ventilation are the most important prerequisites for that self-ignition occurs. Usually the process can be imbalanced as well be delayed by changing the air supply to the stored materials, e.g. B. by Reduction of the air supplied or by increasing the amount of air supplied. Usually it is not possible to suffocate the stored material, although it is also possible to add air in practice.

In some cases, especially when storing grain, air is supplied to the stored goods. Included however, it is simply a matter of drying the stored goods.

The problems of self-ignition occur in particular when forest products such as bark, wood chips, pine needles and damp wood are stored. These substances arise when trees are felled in large numbers. There is a high risk of ignition as a result of the self-ignition process. With regard to the risk of fire associated with this, the Swedish Nature Protection Agency, for example, requires that bark and the like must not be stacked higher than in piles at a height of 2.5 m.
A device of the type mentioned is off

to DE-AS 10 75 887 became known. Such a device consists essentially of a tube, which is on a Part of its length is provided with outlet openings and has an inlet valve. Such a tube is inserted into the stack to be ventilated inserted. It then shows

is naturally a larger one in the area of its tip Distance from the surface of the stack than, for example, in its central area. As a result of these different distances, the ventilation medium also has distances of different sizes to cover and thus to overcome differently large resistance. A certain one to that Applied pressure to the device cannot cover all distances between the tube and the stack surface at the same time satisfy. The ventilation is therefore not evenly effective, possibly in some places even ineffective.

The invention is based on the object of designing a device of the type mentioned in such a way that also with unequal distances between the individual outlet openings of the tube and the wall paper surface Nevertheless, the same ventilation results can be achieved, so that perfect and even ventilation of the stack is guaranteed.

This task is achieved according to the invention with the int

Ϊ5 specified part of the claim Features solved. By applying the invention, it is possible to use the individual pipe sections, d. H. Chambers to act differently in such a way that the exiting from each chamber

• to aeration medium with security to the stack surface got.

An embodiment of the invention is shown in the drawing and will be described in more detail below described. It shows

F i g. t a schematic representation of an air nozzle in longitudinal section, with the air in an accumulation of combustible material can be introduced,

F i g. Figure 2 is a schematic representation of four air nozzles connected to a source of compressed air and inserted into a pile of combustible material.

The air injection nozzle shown in Fig. 1 has in essentially the shape of a tube 4 which tapers at one end. The pipe 4 is with dividers 11, 13 and 15, which divide chambers 10, 12 and 14, respectively. At the end facing away from the tip A number of valves 5 are provided in the air nozzle. Each of these valves 5 is connected to associated lines 7, 8 and 9 in connection. As shown in FIG. 1 also shows, the arrangement is made so that the Line 7 is interconnected with chamber 10, line 8 with chamber 12 and line 9 with of the chamber 14. The end of the chamber 14 facing away from the subdivider 13 is from the subdivision 15 locked. Over the entire length of the tube 4, a series of openings 16 are provided, which with the associated chambers 10, 12 and 14 are in communication.

As can be seen from Fig.2, are a number of Air injection nozzles plugged into a pile 6 of combustible material any of the aforementioned types of flammable material. Each nozzle is on via air hoses 2 a compressed air source connected. This can be a fan or compressor 1, for example. There are quick release couplings 3 between the ends of the air hoses and the air injection nozzles provided that a quick connection and disconnection of the individual hose from the associated Allow nozzle.

Due to the arrangement of the chambers, the lines connected to them and the associated ones the valves ensure that the chambers can each be individually pressurized. So it is possible, air through the openings 16 of a very specific chamber or several very specific To push chambers through. These properties ensure that specific regulations are observed be, so z. B. those of the Swedish Nature Conservation Agency. The air injection nozzles will be namely just plugged into the pile in question, so that a maximum distance of 2.5 m between the first opening 16. of the nozzle and the outermost surface of the pile. occurs. It can be very It may be expedient to build the air injection nozzles from different sections, which together can be screwed, so that herewith nozzle pipes of any desired length.

Such air injection nozzles have proven to be very effective in practice when it comes to avoid overheating. This is e.g. B. the. Case at Buildings of hardwood, bark, etc. If the Common conditions permit, the air to be introduced into a pile or pile can be over be blown in for a long period of time at a constant flow rate. :

1 sheet of drawings

Claims (1)

Claim: Device for regulating and / or monitoring the im Inside a stack of combustible material, with a connector for a medium regulating these conditions and with a tube that extends over at least part of their Length is provided with outlet openings and has at least one inlet valve, thereby characterized in that the tube (4) in the axial direction into a number of chambers (10, 12, 14) is divided that each of these chambers (iO, 12, 14) by means of a line (7, 8, 9) with an associated Valve (5) is interconnected, in such a way that the medium to be controlled the Stack is selectively fed through the chambers (10, 12, 14).