EP0234017A1 - Rotating drum mill for the preparation of a pulverulent material with two different qualities - Google Patents

Abstract

1. A horizontal axis cylindrical rotary pulverizer (1) for preparing pulverized material having two different degrees of fineness, said pulverizer including members in its stub axles (3) for inserting material and a drying gas and for removing pulverized material in the drying gas, said pulverizer being subdivided by a transverse partition (2) into two portions (G, D) which are isolated from each other, each portion including its own members for inserting (4, 5A) and removing (6) material and drying gas via the respective adjacent stub axle, characterized in that the outlet from each of said portions is connected to a separator (7, 11) for separating crushed grains according to their fineness, said separator being provided with a recycling duct (9A, 12), and that the separator (7) connected to the portion (G) of the pulverizer which yields the finer grains is provided with a duct (8) for conveying the larger grains to the feed duct (15) of the portion (D) of the pulverizer for yielding less finely pulverized material.

Description

The present invention relates to a rotary cylindrical grinder with a horizontal axis for the preparation of a pulverulent material with two different degrees of fineness, with members for introducing the material and a drying gas, then for discharging the pulverized material into the drying gas through its trunnions, separated by a transverse partition into two parts isolated from one another, each comprising its members for introducing and discharging the material and the drying gas by the adjoining trunnion.

Such grinders are used in particular for the preparation of pulverized coal ensuring the supply of boiler burners. They are of horizontal axis and rotate around it. They are generally loaded with balls or other grinding elements made of hard material which pulverize by crushing and crushing the material to be ground. In some cases, with materials other than coal, the grinding is carried out by attrition of the fragments of the material to be ground against each other.

Since the material to be ground usually has a certain moisture content, a hot gas, generally air, is introduced into the grinder at the same time as the material to be ground, which ensures its drying during grinding, then pneumatic transport. sprayed material.

The material to be ground and the drying and transport gas are generally introduced into the mill by two hollow end pins. The ground material emerges from these pins, which include partitions and screw systems for transporting the material to be ground. At the exit of these pins, the ground material suspended in the drying gas, the grain size of which is quite wide, most often passes through a separator which lets the fine grains pass to use, and recycles the coarse grains with the raw material for a new passage in the mill.

Document GA-A-2007112 describes a mill divided into two sections, each fed by a different hopper, and in which the ground materials removed from the corresponding sections by entrainment in hot drying air are combined in a common separator to be sent for use with a uniform degree of fineness.

However for certain applications it is necessary to have two different degrees of fineness of the ground material.

The object of the present invention is to provide a rotary cylindrical grinder which makes it possible to obtain these two different degrees of fineness.

The mill according to the invention is characterized in that the evacuation of each of its parts is connected to a separator of the ground grains according to their fineness, provided with a recycling conduit, and in that the separator connected to the part of the grinder ensuring the greatest fineness of grinding comprises a duct for evacuating the coarsest grains towards the supply duct of the part of the grinder ensuring a finest grinding fineness.

The part of the crusher intended to produce the pulverized material of the highest degree of fineness is advantageously connected to a source of hot air under a higher pressure than that of the air source supplying the part of the crusher intended to produce the material sprayed with a lower degree of finesse.

It is described below, by way of example and with reference to the single figure of the accompanying drawing, a coal ball mill for feeding the burners of a boiler from two coals of different origins, the pilot burners being supplied with finely pulverized charcoal and the normal heating burners with pulverized charcoal less finely and richer in ash.

The rotary ball mill 1 with a horizontal axis comprises a partition 2 separating it into a left grinding chamber G and a right grinding chamber D.

Symmetrically, the pins 3 of the crusher are arranged to ensure
- the support and the rotation of the crusher (the latter using a motor not shown).
- the supply of raw coal through line 3A, a space annular and a screw 4,
the entry of the air for drying and transporting the pulverized coal arriving via line 5, through a central pipe 5A,
- the outlet of the ground coal through the annular space and the evacuation duct 6.

The separator 7 on the left side corresponds to the production of the finest pulverized coal. The expansion in the envelope cone 7A of the separator first causes the separation of the very large grains which are guided by the wall towards the transfer duct 8 towards the right side of the mill. The grains of medium size fall into the inner cone 9 of the separator and are directed towards the recycling conduit 9A towards the left side of the mill. Finally, the fine grains are entrained by the transport air towards use by the conduit 10.

The separator 11 on the right side corresponds to the production of a common fineness of the pulverized coal. It does not have a discriminating member between very large grains and medium grains, which are guided together by the wall towards the conduit 12 for recycling to the crusher, where they join the conduit 15 for supplying coal on the right side. of the crusher. The pulverized coal of medium fineness is evacuated via line 13 towards use.

Each part of the mill has independent operation. Each of them is connected to a reserve of raw coal and to a supply device. Only the device 14 for feeding the right part (with hopper and endless belt) has been shown. This device opens into the feed pipe 15 of the mill, connected to the pipes 8 and 12 already mentioned. Thus, all of the refusal from the right separator 11 is returned to the raw coal supplying the right side of the mill, with the very large grains coming from the refusal from the left separator 7. Only the medium grains from the left separator are returned with the raw coal to the left side of the grinder.

It is generally not possible to send all the rejects from one of the separators to the other grinding circuit, because the recycling rate of these separators is high and of the order of 2.

An additional advantage of the arrangement described above is that it makes it possible to return part of the hard and ashy grains feed coal on the left side of the mill, intended to provide the best quality of pulverized coal, towards the right side, corresponding to a lower quality of pulverized coal. This is explained by the following example. There are two different grades of charcoal, the characteristics of which and the degree of fineness to be obtained for the pulverized product are indicated in the following table:

We know that for a fineness of 90%, you need a length of grinder double that necessary for a fineness of 70%, all other things being equal. For productions of 40 t / h and 80 t / h, it is therefore necessary to place the partition in the middle of the grinder.

We also know that between coals of friabilities 40 and 60, the grinding energy is in the ratio 1, 3/1. The difference in friability will be compensated by loading the left side of the grinder to 30% more than the right side.

If we accept a recycling rate of 2, the left separator refuses 40 t / h that by a mechanical arrangement we share in 30 t / h joining the raw coal of the same origin and 10 t / h joining the coal on the right side crude from another origin. These 10% are very concentrated in ashes and inert, which can be estimated at 30%, which amounts to saying that we extract 3 t / h of ash from the production of 40 t / h of pulverized coal on the left side with a supply of flow rate of 50 t / h.
- 50 t / h of raw coal at 15% ash contains 7.5 t / h of ash and produces 40 t / h of pulverized coal after racking 10 t / h containing 3 tonnes of ash. This results in an ash content of the pulverized coal on the left side of 11% and a fixed carbon enrichment of 54% to 56.5%.

We will now see that the quality of the pulverized coal on the right side is not degraded either:
at 70 t / h ground containing 45% ash, or 31.5 t, 10 t / h from the left side are added to 30% ash, 3 t / h.

The right side thus produces 80 t / h with 34.5 t / h of ash, or 43%, and the fixed carbon goes from 25% to 26%.

This result is due to the fact that the rejects on the left side are richer in carbon than raw coal on the right side.

The separation of the circuits, to the nearest duct 8, shows that it is possible to separately adjust the flow rates of transport and drying air, their temperature and their pressure. The pressure must however be in the left side, greater than or equal to that on the right side, so that the air current which will be established in the duct 8 promotes the flow of the refusals from left to right.

Furthermore, the part of the crusher intended to produce the coarsest particle size material may not include balls or other grinding elements, that intended to produce the most fixed particle size material, on the other hand comprising these balls or grinding elements. The separators may not be gravity separators, but of a different kind, for example with a screen.

Although the crusher according to the invention is more particularly suitable for grinding coal or a solid fossil fuel, it also applies to the grinding of other materials, in particular ores.

Claims (2)

1 / Rotary cylindrical mill (1) with a horizontal axis for the preparation of a pulverulent material with two different degrees of fineness, with bodies for introducing the material and a drying gas, then for discharging the pulverized material into the drying gas through its journals (3), separated by a transverse column (2) into two parts (G, D) isolated from one another, each comprising its introduction members (4, 5A) and evacuation (6) of the material and the drying gas by the adjoining pin,
characterized in that the discharge of each of its parts is connected to a separator (7, 11) of the grains ground according to their fineness, provided with a recycling conduit (9A, 12), and in that the separator (7 ) connected to the part (G) of the mill ensuring the finest grinding fineness comprises a conduit (8) for evacuating the coarsest grains towards the conduit (15) for supplying the part (D) of the mill ensuring a less fine grinding. 2 / crusher according to claim 1, characterized in that the part of the crusher intended to produce the pulverized material of the highest degree of fineness is connected to a source of hot air under a higher pressure than that of the source of air supplying the part of the mill intended to produce the pulverized material of lesser degree of fineness.

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