DE4425412A1 - Process and assembly control moisture content of particulate wastes - Google Patents

Abstract

A process and assembly condition a mixture of substances held in a container for treatment or disposal. The novelty is that a liquid is introduced to the mixture within the container and that the composition of the mixture is measured at the container discharge outlet. The resulting measurement regulates the further introduction of liquid to the container. The mixture of the solids are granular or powdery substances of varying characteristics drawn from a fluid bed incinerator or treatment reactor. The liquid introduced is independent of the nature and composition of the solids.

Description

The invention relates to a method and an apparatus for Preparation of media with one or more material Components.

For substances that need to be stored in landfills pretreatment is often necessary. For example it is when disposing of fly ash, preferably in moist transported and then stored in landfills will require a certain moisture degrees, evenly on all particles Splits. This can be done by spraying water. As well it is conceivable to close the moisture in a mixing process lead, in addition to adding water to the mixer as well the addition of water containing, also to be disposed of applicable substances. Such substances are in for example by-products from flue gas desulfurization plants, which have a different water content.

Such a device and method is in the PCT / CH94 / 00005. There is a Dosie procedure ren and especially for mixing at least one granular or powdery solid with a liquid wrote. First it becomes granular or powdery Solid with a continuous or pulsating approach led gas fluidized and then this is homogenized Gas-substance mixture dosed at a constant time and with a liquid merged and mixed. All in this process incoming mass flows are measured and accordingly, depending on the composition of the substances involved, regulated the supply of moisture.  

In order to obtain landfillable substances, it is often, in particular especially with fly ash, required - depending on the composition -, a certain level of moisture that spans all part related to the product. This is especially true for raw materials and additives with different things content.

The invention is therefore based on the object of a method and to provide a device according to which the composition and the associated and required level of moisture as accurately and quickly as possible also below the surface of the The substance to be processed is determined and the rivers to be added quantity of liquid is added and regulated.

This object is achieved in that the Substances are added to a liquid, the together placement of the processed substances directly behind the discharge the processing device measured and that of the respective depending on the required composition to be added Amount of liquid is regulated.

The quality of substances that can be stored in landfills depends among other things, significantly depends on the moisture content. Ins The starting products have special features, for example secondary products from flue gas desulphurization or slags from the combustion processes, different humidity shares. Often in the reprocessing process in addition, water-containing substances for disposal or recycling tion added. These substances can, for example, side pro products from flue gas desulfurization plants. They will with a large fluctuation range of the water content of 10% up to 80%, preferably 15% to 50%. To one Maintaining a constant level of moisture is therefore one Fast detection and control of the moisture content necessary dig. In addition, the measurement of moisture should not only on the surface of the product but as deep as possible below the surface or integrally across the entire  Layer thickness take place in order to achieve optimal homogeneity len.

Unless it is granular or powdery starting substances is according to a particularly preferred embodiment provided, before adding liquids, these substances from the bottom area of a fluidized bed in the form of a metered, subtract homogenized gas / solid mixture.

The liquid can preferably be water and / or water containing substances (for example REA suspensions) leads. The compositions of the possible media can NEN with discontinuous ranges of values, d. H. the starting materials are classified according to different (e.g. according to fabric components, moisture level etc.) parameters classifiable in multiple dimensions.

Water and / or water-containing can be used as moisture additives Substances are added. In particular, it can the water-containing substances also to be treated Trade substances.

The moisture measurement can be done by known methods done as mechanically about the strength, capacitive, in ductile, via electrical conductivity, via radioactive Radiation, via nuclear physics methods and / or via electromagnetic radiation, any possible combination the aforementioned measurement methods is conceivable.

According to a particularly preferred embodiment direct detection of moisture using an infrared spectrometer ter. In such a method (according to DE 43 03 178 A1) who the rays supplied to a substance from a source and from the Forwarded substance to a recipient. In one of them connected interferometers are made up of two light beams derived that form interferences from which the searched Parameters, such as moisture level, by comparing with given values. The ver with this procedure  tied advantages lie especially in the continuous fast, non-contact and fast detection and control certain parameters, such as moisture Degree.

Further features of the invention result from the Unteran say and the following description of an execution example.

An embodiment is shown in the drawing. It demonstrate:

Fig. 1 is a general diagram of the apparatus and method

Fig. 2 shows a device with infrared spectrometer and

Fig. 3 shows the infrared spectrometer.

In Fig. 1, the inventive principle can be seen in a schematic representation. The solid in the form of particles is fed into a fluidized bed apparatus 3 from a storage container 1 . For example, a metering screw or a chain conveyor 2 can be provided for the feed. Through the bottom 7 of the fluidized bed apparatus 3 , fluidizing gas flows from bottom to top and swirls the solid particles fed in, forming a fluidized bed 4 . The gas / solid mixture of the fluidized bed 4 behaves almost like a liquid. From at least one outlet opening 8 in the bottom 7 of the fluidized bed apparatus 3 , the gas / solids stream homogeneously present in the fluidized bed 4 can flow out into the outlet line 9 and be introduced, for example, into the conditioner 10 . To measure the austre Tenden gas / solid flow, a pressure measuring point 5 may preferably be arranged close to the bottom 7 via which, together with the disposed in the fluidized bed apparatus 3 pressure measuring site 5 'to both the driving pressure gradient between the fluidized layer 4 near the ground and the conditioner 10 near the Feed 9 is determined. The pressure measuring point 6 can be omitted, the pressure difference against the external pressure being determined. With this differential pressure method, a precise metering of a solid into a liquid is achieved. The detection of the density of the gas / solid suspension is carried out via the pressure measuring points 5 'and 5 . The gas / solids flow is controlled by a computing device (not shown), the setpoints for metering the metering screw or chain conveyor 2 and the setpoint pressures of the pressure measuring points 5 ', 5 and 6 serving, among other things, as boundary conditions.

Humidification is necessary to make the substances to be processed suitable for landfill storage. These liquids to be mixed for this purpose can be fed to the device at various points. For example, water can be fed directly into the conditioner 10 via the line 12 . It is also conceivable to moisten the still dry material shortly after the discharge using spray nozzles. In addition, a mixer 13 can be arranged behind the conditioner 10 , in which the material is mixed for storage. It is also possible to arrange only one mixer directly behind the fluid bed apparatus. The required pressures are then recorded accordingly. Which method you choose to add moisture depends on the material to be disposed of. A further rational preparation can be achieved by adding the water containing material to be disposed of to the process at a suitable point 14 to the dry material, for example by-products from flue gas desulfurization plants, which are in suspensions with different water contents - be it in the form of bound or free Water - available. The usual Wasserge content of the REA gypsum is between 10% and 80%, preferably between 15% and 50%.

So that a certain moisture level of the material to be stored, which is optimal for transport and for the landfill, is aimed at, it is necessary to determine the moisture level as quickly and precisely as possible and, if necessary, to adjust it by adding water with the least possible dead time. This can preferably be done by known methods of measuring the degree of moisture, such as. B. mechanically on the strength, capacitive, inductive, on the electrical conductivity, on radioactive radiation, on nuclear physical methods and / or on electromagnetic radiation. In Fig. 1, a corresponding sensor for moisture is shown with the reference numeral 15 . The measured variable is converted into a digital variable and entered into a computer 16 for a target-actual comparison. The computer 16 he then generates the necessary control signals for the metering valve 17 or 17 'arranged in the water line 12 or 14 '.

The regulation of the metering of the gas / Solid mixtures on the one hand and the regulation of what On the other hand, water supply is independent of one another. Is conceivable but also another embodiment that both regulations are coupled together.

Another device according to the invention for measuring and controlling the moisture content is shown in FIG. 2. The reference numerals in FIG. 2 correspond to the reference numerals in FIG. 1. An infrared sensor 19 , to which an evaluation unit for the optical signals is connected, serves as a measuring device for the degree of moisture. The measurement takes place, for example, on the material 21 to be examined which is moved on a conveyor belt 18 . The signals generated there reach the processing unit 16 for further processing.

The known infrared spectrometer is shown in Fig. 3 ge and corresponds to the subject of the German Offenle publication DE 43 03 178 A1, in which the details are described. The device serves for the contact-free detection or determination of parameters of a substance 21 , in particular for the detection of its water content. Here the surface 22 of the fabric 21 is shown. The receiver in the sensor 23 is connected via the line 24 , which is designed, for example, as a light guide, to a unit 25 for evaluating the signals. About the fabric 21 , a light source 26 or a source of rays with a reflector 27 is arranged. With 28 'a beam path is designated, as occurs in example between the light source 26 and the receiver 23 . The light source 26 preferably emits light or rays in the region of the so-called "near infrared". This range contains wavelengths that are between 800 nm and 2500 nm. The line 24 opens into the unit 25 , which is used to evaluate the signals, and together with a downstream collimator system 28 forms the input of an interferometer 29 . The interferometer 29 has an output 30 for light rays, for which a lens and order steering system 31 , 32 is subsequently provided. The rays enter a detector 33 . This is ver via electrical line 34 with an amplifier 35 and an analog / digital converter 36 connected. A line or a bus 37 connects this to the computing unit 16 for evaluating the measurement signals.

Reference list

1 storage container
2 chain conveyor
3 fluid bed apparatus
4 fluidized bed
5 ′ pressure measuring point
5 pressure measuring point
6 pressure measuring point
7 floor
8 outlet opening
9 outlet line
10 conditioners
11 Setpoint for solids
12 Setpoint for differential pressure
13 mixers
14 Addition of water-containing material (REA gypsum)
15 moisture meters
16 arithmetic unit
17 Dosing valve for water
17 ′ metering valve
18 conveyor belt
19 sensor
20 signal evaluation unit
21 fabric
22 surface
23 sensor
24 line
25 unit
26 light source
27 reflector
28 collimator system
28 ′ beam path
29 interferometer
30 exit
31 lens system
32 deflection system
33 detector
34 line
35 amplifiers
36 A / D converter
37 line.

Claims (9)

1. A process for the preparation of media with one or more material components, characterized in that a liquid is added to the substances, the composition of the substances thus prepared measured directly behind the order from the processing device and the required depending on the respective composition amount of liquid to be added is regulated. 2. The method according to claim 1, characterized in that at least one of the following features is provided:

• the media and / or the material components are granular or powdery solids or suspensions thereof in a liquid,
• - The media and / or the material components are substances whose composition is recorded over discontinuous value ranges,
• - The required amount of liquid to be added is independent of the composition of the media and / or the material components,
• the media and / or the material components are substances which are drawn off from the bottom region of a fluidized bed as a metered, homogenized gas / solid mixture before the addition of liquids,
• - The media and / or the material components are residues from combustion devices and their downstream flue gas cleaning processes, which are prepared by the process for recycling or disposal.

3. The method according to at least one of claims 1 or 2, because characterized in that, as liquid additives water and / or water-containing substances are added. 4. The method according to at least one of claims 1, 2 or 3 characterized in that it is in the water-containing sub also punch for residues from power plant operations acts through the process for recovery or Be prepared for disposal. 5. The method according to at least one of the preceding claims, characterized in that for the regulation of the damp required measurement of the composition and / or Consistency of the media and / or the material components mechanically via the consistency, capacitive, inductively, via the electrical conductivity, via radioactive radiation, via nuclear physics methods on electromagnetic radiation and / or via any combination of these measurement methods follows. 6. The method according to at least one of the preceding claims, characterized in that for recording the composition tion and / or consistency of the media and / or the material Components electromagnetic radiation, preferably beam len in the "near infrared", from outside the substance to be measured are supplied, the reflected rays being received and then using an interferometer and a Evaluation device determines and gives the composition if necessary, the required amount of moisture to be added is regulated. 7. The method according to at least one of the preceding claims, characterized in that in the control loop for regulation the moisture content the dosage via the fluidized bed is involved. 8. The device according to the method according to at least one of the preceding claims, characterized in that it has a storage container ( 1 ), a fluidized bed apparatus ( 3 ) with metering device ( 1 , 2 , 5 ', 5 , 6 ), means for supplying water and / or water-containing substances and at least one measuring device ( 15 ) for measuring the composition of the media and / or the material components with a subsequent regulation of the amount of moisture. 9. The device according to claim 8, characterized in that at least one of the following features is provided:

• - Behind the fluidized bed apparatus ( 3 ) with the Dosiereinrich device ( 1 , 2 , 5 ', 5 , 6 ) is a conditioner ( 10 ) for increasing the contact surface of the fabric components is arranged,
• - Behind the fluidized bed apparatus ( 3 ) with the Dosiereinrich device ( 1 , 2 , 5 ', 5 , 6 ) and before the measurement ( 15 ) of the substance composition, a mixer ( 13 ) is arranged,
• - Behind the fluidized bed apparatus ( 3 ) with the Dosiereinrich device ( 1 , 2 , 5 ', 5 , 6 ) and before the measurement ( 15 ) of the substance composition, a mixer ( 13 ) is arranged, the mixer ( 13 ) being a conditioner ( 10 ) upstream to enlarge the contact surface of the material components,
• - One for measuring the composition of the media and / or the material components is a "near infrared" working of the interferometer ( 29 ) is provided.