NL8302112A - METHOD AND APPARATUS FOR BURNING A FUEL USING A FLUIDIZED BED. - Google Patents

Description

. 5.0. 31751

Method and device for burning a fuel using a fluidized bed.

The invention relates to a method for burning a fuel using a fluidized bed, in which air is passed through a bed of granular material which at least partly consists of granules of the fuel, in particular coal, and which is supplied via a feed device which air is used both for fluidizing the bed and for combustion of the fuel, after which air flows together with the combustion gases and solid particles entrained from the bed through a space above the bed to an outlet and then the solid particles out the air combustion gases stream is separated and solid particles are returned to the bed.

The use of a fluidized bed has long been recognized as an attractive means of generating heat. The bed of granular material usually comprises a mixture of an inert material, a combustible material such as high sulfur bituminous coal, and a sulfur bond absorbent material released as a result of the combustion of the fuel. As a result of passing the air through the bed, the bed is fluidized which promotes combustion of the fuel. The advantages of this method include a relatively high degree of heat transfer, a substantially constant bed temperature, a combustion at a relatively low temperature, the ease of handling of the fuel materials, a reduction in attack and deposit in the boiler, a reduction in its dimensions and good control of the emission of environmental pollutants.

The velocity of the air passed through the bed must be sufficiently high to keep it in a fluidized state, with the result that a portion of the granular bed material is entrained by the air flowing through the bed, which entrained material under other unburnt fuel particles and sulfur-binding material that has not yet absorbed sulfur compounds.

Until now, all entrained particles, after being separated from the flue gas stream, have been returned to the bed by some separate back-firing equipment, in order to improve efficiency, since the entrained particles comprise a significant amount of unburned carbon particles, as shown in 8302112 -2- table below.

fraction d50 wt% wt% C

o. 30 25.6 7.4 5% 40 18.7 7.7 P 60 13.4 · 5.0? 80 12.9 3.3 "130 29.4 1.5 10 e 250 16.2 1.4 £, 150 16.5 3.4 | 80 14.6 5.1 g 4-5 34.5 13.2 15 20 18.2 8.4

Thereby mass flows are reached which can be a factor of 3 greater than the coal feed, so that by continuously re-introducing such a large cold slipper stream into the bed, combustion in the bed is adversely affected.

The object of the invention is to provide a method of the said type which does not have these disadvantages.

This object is achieved in that in the method according to the invention, in addition to the separation of the particles from the air combustion gas stream, also carbon and / or carbon-containing particles are separated from ash particles, and only the first-mentioned particles in the returned to the bed.

The carbon and / or carbon-containing particles can be separated from the 30-axis particles, for example by wind sieving or by a high gradient magnetic separation with air as a fluid or in a slurry.

Preferably, however, an electrostatic separation is applied in which the gas stream flowing out of the outlet is fed into a cylinder in which the solid particles are separated and the carbon and / or carbon-containing particles are given an electric charge by friction, after which these particles are passed through a electrostatic separator, 8302112 »................. * -3- so that the carbon and / or carbon-containing particles fall from the separator on one side of the electrode and the ash particles on the other side, after which the first-mentioned particles are returned to the bed.

In this way, therefore, a limited amount of backstroke material is obtained, so that the separated carbon particles can advantageously be introduced into the original fuel feed system and thus into the bed, so that essentially no backburning system is required.

However, if a separate back-10 heating system is used, this system may be much smaller with a smaller number of back-heating points.

In particular, so-called cold places do not arise in the bed in the method according to the invention because no larger inert masses are fired back. In addition, the carbon content when firing back is constant at equilibrium conditions, so that the carbon content can be controlled. Furthermore, in the method according to the invention, the ash management is faster and better balanced.

The invention also relates to an apparatus for carrying out the method, comprising a housing with at least one support for the bed of granular material arranged therein, means for supplying a granular material to this bed and means for passing air through this bed. bed, a space above the bed, at least one outlet opening into the upper part of this space, which communicates with a cyclone for separating solid particles from the gas stream flowing out of the outlet, in which, according to the invention, the outlet for the separated solid particles of the cyclone are in communication with a separator for separating carbon and / or carbon-containing particles of ash particles from each other, and the collection space for the first-mentioned particles of this device is in communication with the bed.

Preferably, the cyclone is a cyclone, which is coated on the inside with a material through which, by friction, the carbon and / or carbon-containing particles receive an electric charge, and the outlet for the solid particles is connected to a electrostatic separator.

The collecting space for the carbon and / or carbon-containing particles of the separator advantageously communicates with the means for supplying the granular material to the bed.

The invention is further described with reference to the drawing which schematically shows an apparatus for carrying out the method 8302112-4.

As shown in the drawing, the device comprises a furnace 1 in which an air-permeable support 2 for a fluidized bed 3 of a granular material is mounted. The bed 3 is fluidized by supplying air through the combustion air inlet 41 which flows through the support 2 into the bed 3. Above the bed 3 there is an open space, the so-called freeboard, where the gases flowing from the bed 3 flow through them to leave the combustion chamber 1 via the outlet 6, these gases flowing through cooling sections 7.

The granular material in the bed 3 is replenished by means of the dosing device 8, which is fed by the coal bunker 9 and the lime hopper 10.

The gases flowing from the outlet 6 with the solid particles entrained therein from the bed 3 are led into the cyclone 11, in which the solid particles are separated and fall down, while the gases leave the cyclone via the pipe 12 and are directed to the filter 13 for cleaning these gases, the dust particles trapped in the filter 13 leaving the filter via the outlet 14.

In cyclone 11, the carbon and / or carbon-containing particles also acquire an electrical charge by friction, so that in the electrostatic separator 15 connected behind cyclone 11, these charged particles are turned to the side with the one electrode of the separator 15 drawn and enter the collection space 15 ', while the ash particles fall into the collection space 15' 'and contain relatively little carbon-25 the mixed particles and uncharged particles enter the collection space 15'M, from where these particles pass through the pipe 16 are fed to the filter 13, while the ash particles are discharged via the line 17. The carbon- and / or carbon-containing particles are returned via the conduit 18 from the collection space 15 'to the dosing device 8, and via this device back into the bed 3.

A heat exchanger 19 is present in the bed 3.

Furthermore, several cyclones 11 may be present, which may or may not be arranged in parallel.

8302112

Claims (6)

1. Method for burning a fuel by means of a fluidized bed, in which air is passed through a bed of a granular material which at least partly consists of granules of the fuel, in particular coal, and via a supply device which air is used both for fluidizing the bed and for combustion of the fuel, after which the air, together with the combustion gases and particles entrained from the bed, are separated from the air-combustion gas stream by a space above the bed and the particles are returned to the bed, characterized in that in addition to the separation of the particles from the air combustion gas stream, carbon and / or carbon-containing particles are also separated from ash particles, and only the carbon-rich particles are returned to the bed . 2. A method according to claim 1, characterized in that the carbon and / or carbon-containing particles and the ash particles are separated from each other by passing the gas stream flowing from the outlet into a cyclone in which the particles are separated and frictionally imparting an electric charge to the carbon- and / or carbon-containing particles, after which these particles are passed through an electrostatic separator, so that the carbon- and / or carbon-containing particles at the side with the one electrode and the axis- particles fall from the separator on the other side, after which the first-mentioned particles are returned to the bed. 3. Process according to claim 1 or 2, characterized in that the separated carbon and / or carbon-containing particles are introduced into the bed feeder. 4 ·. Device for carrying out the method according to claims 1-3, comprising a furnace with at least one support for the bed of granular material arranged therein, means for supplying a granular material to this bed and means for passing air through this bed. bed, a space above this bed and at least one discharge opening into the upper part of this space, which communicates with a cyclone for separating solid particles from the gas stream flowing from the discharge, characterized in that the exhaust for the separated solid particles of the cyclone communicates with a separator for separating carbon particles of ash particles and / or carbon-containing ash particles from each other, and the collection space for the first mentioned particles of this device is in communication with the bed. 5. Device as claimed in claim 4, characterized in that the cyclone is a cyclone which is coated on the inside with a material, through which the carbon and / or carbon-containing particles receive an electric charge through friction, and the outlet of which for the solid particles are in communication with an electrostatic separator. 6. Device according to claim 4 or 5, characterized in that the collection space for the carbon and / or carbon-containing particles of the separator is in communication with the means for supplying granular material to the bed. 8302112