NO117191B - - Google Patents

Description

Rack for fluidized bed oven.

The present invention relates to a grid for

a fluidized bed furnace and the purpose of the invention is to provide a grate structure that can be easily cleaned and partially replaced without disrupting the operation of the furnace to any significant extent.

Fluidizing air or gas is led to the fluidized bed furnace from the bottom of the furnace. The distribution of the air or gas should be as uniform as possible to achieve good fluidization. This is achieved by providing a pressure drop in the grate. The size of the pressure drop depends on the relevant preceding process in the reaction space and the associated conditions. In most cases, the supply of air or gas takes place in such a way that it is first led into a larger space below the surface that forms Cfr. at 40a-l/l0 the grate, so that an even distribution of the pressure is achieved under the grate, after which the pressure drop characteristic of the process is achieved in the grate itself, by a change in the flow rate of the air or gas in the grate. The grate is formed, for example, by rods which, when combined, form appropriate openings and thus effect an appropriate distribution of the air or gas, or of other openings. otherwise it ended flat.

To get to the grate, it must either be removed or the oven cooled down to a temperature at which you can enter the oven to carry out repairs and the like. If you want to remove the grate and it concerns a large oven and thus even a large air distribution room, the entire room must be able to be removed, for example lowered. In the case of large ovens, this requires powerful machinery as well as a suitable space under the mentioned oven. ,

Because of this, efforts have been made to simplify the system;

met by reducing the grate units in the oven, but as a result i.

there have arisen difficulties in alignment, especially between the different grid units, which must be as close as possible to each other to achieve a uniform grid surface. In the case of large gratings

moreover, the movements of the grate are difficult to control due to thermal expansion.

The invention intends to eliminate the above-

mentioned disadvantages and the essential characteristic features of the grating according to the invention appear in the following patent claim 1.

The grate according to the invention is provided in the simplest way

in that the grating units are preferably made in the form of long, narrow capsules that can be pushed into the oven chamber from its side or sides. As it concerns a long narrow capsule where the length is important for the even distribution of the pressure under the grate, special consideration should be given to the distribution of the air. In the same way that the length of the capsule affects the distribution of the air or gas, so does the rise in temperature due to the movement of heat upwards through: the grid surface. Because of this, it must be checked that the pressure and the temperature in the capsule below the grate surface throughout the capsule are kept as constant as possible. Otherwise, the hollow surface of the grate must be designed in different ways in different parts of the grate depending on the mentioned temperature and pressure, which of course can only be done for a specific operating condition, whereby variations cannot be permitted.

<;->1,' '<*>In order to maintain a constant temperature and pressure under the grate surface, according to a preferred embodiment of the invention, the capsule can be provided with an inner tube that is well insulated and provided with appropriate air or gas distribution openings along the entire length of the grating capsule. In this way, an even distribution of air or gas is achieved along the entire grate surface and a g9,d fluidization throughout the oven.

According to another preferred embodiment, the iris surface is isolated from the capsule and the pressure loss in the grating surface is absorbed so that the pressure loss for the length of the grating capsule does not affect the distribution of the air in the grating. This can be done so that the upper surface of the capsule is provided with a heat-insulating layer, for example a ceramic layer, through which gas nozzles are passed which distribute the gas or air evenly to the fluidized bed in the oven. The invention shall be described in more detail in the following with "reference to the drawing which shows a construction form for a grate according to the invention, and where: ....... ,'.

fig. 1 shows a cross-section of one vortex type oven "": grid part with • a grid according to the invention, :-'-^-''''''''

fig. 2 the grate seen from above according to fig. 1, and -V -.-t fig. 3 a cross-section of a grating capsule in larger -

yardstick. - ..;.

In the drawing, the reference numbers 1 denote the bottom of the oven, 2 the side walls and the reference number 3 generally denote a grate capsule. The grate capsules 3 are pushed into the bottom of the oven in turn from the openings 4 arranged in the opposite side walls 2" At the closed ends there are draft openings 5 arranged for the grate capsules along the lower part of one side wall 2 for the grate and along the lower part of the other opposite wall, the oven drain openings 6.

In each grid capsule 3, an air supply pipe 8 surrounded by, for example, a mineral wool insulation 7 is arranged in the lower part, in the upper surface of which a number of air nozzles 9 are arranged at regular intervals, which extend through the mineral wool insulation 7 to the one above located air space 10. The upper surface 11 of the grate capsule 3 is provided with holes 12 evenly distributed over the entire surface. The fluidizing gas or air is led via pipe 8 and the air nozzles 9 to the air space 10, from where it is distributed evenly over the entire grate surface through the openings 12.

Since the grate capsules, 3 are arranged in turn from the opposite sides of the oven, it is easy to replace them.

If the oven has the shape of a vertical cylinder, the grating capsules 3 can be designed as circular sector-shaped capsules. You can even use grate capsules with a different cross-section than the right-angled shape.

Claims (3)

1. Grate for a fluidized bed furnace, characterized in that the grate is composed of several independent capsule-shaped hollow units (3), whose upper surface (11) is provided with holes (12) for the introduction of air into the roasted material, and whose interior forms a gas - or air space (10), into which air supply pipes open, which capsule-shaped units (3) can be pushed in or pulled out through openings (4) arranged in the oven's sides (2). 2. Grid according to claim 1, characterized in that the air supply pipe (8) projects into the space (10) and is provided with nozzles (9) and is surrounded by an insulation layer (7). 3. Grate according to claim 1, characterized in that the upper surface (11) of the capsule-shaped unit (3) is made of a ceramic material, through which holes (12) in the form of nozzles or channels are arranged over the entire surface.