SK5831Y1 - Apparatus for heat treatment of organic materials, especially waste materials - Google Patents

Abstract

Apparatus for heat treatment of organic materials, especially waste, including furnace with an insulated housing (1) containing at least one heated chamber (2), in which is a work space for feed and thermal decomposition of the treated material, wherein the furnace contains heating elements (3) in the separate space from the workspace, and the furnace also includes at least one opening element (4) to open up the heated chambers (2). The device is also equipped by at least one channel (5) for the exhaust gases, the channel (5) comprises at least one cooling section (7), which is equipped with at least one collector (8) to catch condensate of the cooling components, and has the reservoir created as a mobile closed hollow body, equipped by the open lid (11) with at least one outlet (12), the lid (11) separates the inner cavity (15) of the tank.

Description

Technical field

The solution relates to the design of a plant for the thermal treatment of organic matter, in particular waste, such as biomass or waste cereals, into secondary recoverable raw materials, in particular carbon particles and oily condensate.

BACKGROUND OF THE INVENTION

At present, organic waste such as biomass, wood chips, burning wastes, petroleum materials, waste cereals, organic polymer based plastics, rubber materials and others are normally disposed of by incineration. This generates energy, but it is heavily burdened by the flue gases produced by the environment. For the possibility of combustion, it is necessary to use specific equipment with certificates, equipped with expensive protection systems. By incineration, these materials are disposed of without the production of useful secondary raw materials. The flue gas ducts of these installations must be equipped with costly filtering equipment, which puts economic burden on operators. The smoke from these devices has an extremely strong and unpleasant odor, which raises public protests and prevents these devices from operating in municipalities and in the vicinity of the inhabited areas, even if they meet the prescribed standards in terms of harmlessness. The removal of waste materials for long distances from collection points is not economical.

In addition, these masses are processed by pyrolysis, i.e. by thermal decomposition without combustion, which is carried out in furnaces of different construction by roasting the masses without combustion. In this process, valuable recoverable secondary raw materials are obtained. In particular, carbon particles and oily condensates are obtained from the organic materials by heat treatment. Equipment for environmentally friendly heat treatment of materials by pyrolysis processes is currently the subject of intensive research and testing. In particular, there are various types of furnaces with a heated chamber for the thermal treatment of materials, which are equipped with elements for heating in a space separate from the space with the material being processed. The hitherto unresolved problem of these devices is the undesirable escape of flue gases containing pyrolysis products and exhibiting intense unpleasant odors. In addition to the design of the furnaces, the arrangement of the flue gas ducts must also be addressed. At present, developments in the field are directed to a complete abandonment of flue gas discharge into the external space. There are already known devices with the return of the flue gas duct into the heated chamber of the furnace, such as from CZ U 17601, as well as devices with residual flue gas outlet into a mobile container, such as from CZ U 19944. The possibility of exhausting and disposal of flue gases during pyrolysis is that is, the problem remains that after the pyrolysis process a certain amount of flue gases persists in the stillage and ash from the masses and these are released after opening the furnace, in particular until complete cooling has occurred. Alternatively, a certain amount of undesirable gases may persist even in the heated chamber of the furnace, even after the heat treatment and cooling process has been completed, which complicates the commercialization of these devices. The apparatus of the type comprises an oven with an insulated jacket, a heating chamber and heating elements, and a flue gas duct with at least one suction element, the necessary shutters and a cooler, the cooled section of the duct being equipped with a condensate collector with a collecting vessel. It may further comprise, as in the device according to CZ U 19944, a container for evacuating residual gases.

The material is usually supplied to these furnaces either by pouring without the use of containers, directly from the outside of the furnace located by a conveyor or hopper, such as grain and other small particles, or is introduced into the furnace in a container. In this case, the container is placed directly in the interior of the furnace, where it can perform several functions in succession, as a rule, all only as a mass storage. First, the container performs the function of a batch dispenser, then a pad or grate for the heat-treated material, and finally functions as an ashtray to collect and remove residual solids and ash from the furnace after the process is completed. The type of container corresponds to the needs arising from the type of material being processed. As a rule, containers are used whose space for the material to be supplied is not separated from the other spaces in the furnace or is only partially separated by perforated walls. Typically, these are baskets, racks and box boxes, which are due to the need for mobility or on wheels. Rarely, there are other metering containers for the pyrolysis of material in furnaces, for example from CZ PV 2002-1363. There is described a mobile container for rubber and plastic waste which has the form of a mobile cylinder with a through-center cavity, where the cylinder jacket is equipped with drainage openings the passage of flue gases from the container into the heated chamber of the furnace and further into the flue gas duct. It is envisaged that the waste to be processed outside the furnace is placed in the container and the filled container is then introduced into the furnace. The furnace is heated and the heat treatment of the masses takes place using pyrolysis processes. After processing in the rack, the carbon residues of the mass remain from the processed mass and any other solid residues. After the furnace has cooled, the mobile container is taken out of the furnace, the solid residues from the processed materials are removed and the next is dosed.

581 dose of waste for pyrolysis. The device of this type is not sufficiently ecological, its problem is the outlet of flue gases into the external environment.

The essence of the technical solution

The above-mentioned disadvantages of the prior art are largely eliminated by the proposed technical solution. A proposed apparatus for the thermal treatment of organic matter, in particular waste, comprising an insulated furnace furnace comprising at least one heated chamber containing a working space for the charge and thermal decomposition of the material to be treated, the furnace comprising heating elements in a space separated from the working space. The furnace also comprises at least one opening element for accessing its heated chamber. The proposed apparatus further comprises at least one flue gas exhaust duct from the decomposed material, which in its course comprises at least one cooled section, which is equipped with at least one condensate collector for catching by cooling the condensing components. This device also contains the necessary control and closing elements and is equipped with at least one material supply container, which can be placed in the heated chamber. The principle of the new solution is that the device has a container formed as a mobile closed hollow body with an openable cover and at least one outlet, which separates the inner cavity of the container from the surrounding space gas-tight, the container outlet has at least one closure and one end the cavity inside the container and the other end having a protruding exterior of the container and extended therein so that when the container is located in the heated chamber, the outer end also extends on the outside of the heated chamber and ties releasably attachable to the inlet end of the drain.

One possible alternative of the proposed solution is that the container has only an outlet (s) and no supply. This solution is suitable, for example, for the heat treatment of cereals and other materials in which the intake of gaseous media is undesirable or even prohibited.

For the above variant, the arrangement in which the outlet of the container has an outlet channel comprising at least one cooled section followed by at least one closure and at least one removable gas collector is provided, which is considered in the direction of movement of the passing medium.

A second alternative of the proposed solution, which is advantageous especially for the possibility of universal use of the reservoir into various systems of smoke exhaust and for several kinds of processed materials, is also the reservoir equipped with at least one inlet. The inlet has one end opening into a cavity inside the container and the other end extending from outside the container, where it is extended so that when the container is located in the heated chamber, this outer end extends outside the heating chamber and ties releasably attachable to the air inlet and / or other elements. the media. This supply may serve, for example, to equalize the pressure in the reservoir as it cools. It can also be used, for example, to supply an inert gas addition, a one-time or limited supply of an additive medium with a suitable additive, such as a residual ammonia inactivating additive or other volatile substance escaping from the mass into the container cavity during the heat treatment process. It is also possible, if the nature of the material to be processed permits, to temporarily connect the outlet end of the drain channel to the inlet of the reservoir to form a closed circuit with the circulation of the medium. The exhaust duct may be adapted, for example by means of a branch, to connect the outlet end alternately to the flue gas duct, to the detachable gas trap and / or to the supply to the container.

The outlet of the container has a drain channel preferably provided with at least one suction element.

Advantageously, the insulated furnace body is provided with at least one opening or recess for the container outlet and, if the container is also provided with a supply, for supplying the container, thus allowing the container to be accommodated in the furnace with an extended outlet and possibly supply, preferably with resistive elements.

The container may be provided with a running gear for rails or skids, and the like, preferably provided with rotating means for traveling on a support such as wheels, swivel roller and the like. It is furthermore provided with at least one gas-tight door enabling material to be introduced and the remainder of the mass to be removed after the process, the door being placed accessible from the outside through the furnace opening element, i.e. behind the furnace opening element.

The proposed technical solution eliminates the shortcomings of the current equipment for heat treatment of materials. The mobile container can be conveniently filled and emptied outside the furnace. The mobile container according to the proposed solution can be used for various solutions of flue gas removal, inter alia for equipment with a common flue gas duct to the environment, according to the type of processed materials and equipment of the exhaust duct. After heat treatment of one batch of material, no shutdown of the device or its complete cooling is necessary, since the mobile container can be removed from the device and replaced with a new one. It is possible to have several mobile cartridges available and use them for one batch at a time, so that another cartridge can be used for a new batch. Disassembled containers can be stored in a suitable place and allow sufficient time to cool down. They can be transported in a closed state to another, na3

EN 5831-1 example a more suitable place for emptying and for further processing of the materials contained therein. Any residual gas scavengers used may also be replaced as necessary. The proposed solution has the advantage of increasing the safety of work and eliminating the risk of unwanted escape of fumes or possible ignition of non-cooled residual materials. In this case, the time of one furnace operating cycle and the time of plant shutdown required for the material to be exchanged are substantially reduced. There is also a significant energy saving, since the heated chamber does not need to be cooled so much, and so there is no need for such a new reheat for the next cycle.

BRIEF DESCRIPTION OF THE DRAWINGS

The technical solution is explained in more detail by means of the drawings, where FIG. 1 shows a diagram of an exemplary container-only device according to a first embodiment of the proposed solution, with a heated chamber in a section equipped with a mobile container, FIG. 2 shows the mobile container itself, seen from the side, FIG. 3 shows a diagram of a cartridge equipped with an outlet and an inlet according to a second embodiment of FIG. 4 is a top view of a furnace in which a mobile container is placed in the heated chamber, with a cut through the container inlet and outlet.

Examples of technical solution

Example 1

An example of an embodiment of the proposed technical solution is a device for thermal treatment of organic materials, especially waste materials, with a mobile container according to FIG. 1 and 2. This variant of the device is suitable, for example, for the heat treatment of cereals.

The apparatus comprises a furnace with an insulated body I comprising at least one electrically heated chamber 2, in which a working space for charging and thermal decomposition of the material to be processed is located, the furnace in the space separated by the walls from the working space comprising heating elements 3, for example electric heating coils. The furnace has an opening element 4 at the front for accessing its heated chamber 2. The apparatus further comprises a venting duct 5 for exhausting flue gases from the decomposed material. On the part of the drain channel 5 is placed a cooler 6 allowing condensable liquids from the medium flowing through the drain channel 5 during operation of the device. The cooled section 7 of the drain channel 5 is equipped with a condensate collector 8 terminated by a condensate trap 9. The drain channel 5 is also provided with a suction element 10 for supporting and regulating the flow of medium in the drain channel 5.

The device is provided with a mobile material supply container disposed in the heated chamber 2. This container is formed as a closed hollow body, in this exemplary embodiment as a hollow cylindrical container, with an openable cover 11 provided with an outlet 12. At the outlet 12 there is at least one closure 13 and the outlet 12 is terminated by a screw flange H. The cover 11 separates the inner cavity 15 of the cartridge from the surrounding space gas-tight. The outlet 12 of the container has one end opening into the inner cavity 15 of the container and the other end has a protruding outside of the container and extended so that if the container is located in the heated chamber 2, this outer end of the outlet 12 protrudes outside the heated chamber 2 and the insulated body 1. a furnace into an accessible space, where it is detachably attached by means of a flange 14 for the material processing time to the inlet end of the exhaust duct 5.

In this embodiment, the reservoir has only an outlet 12. The exhaust duct 5 may have a detachable gas trap 16 temporarily or for the entire mass processing process.

The insulated furnace body 1 is provided in front of the opening element 4 with a recess 17 for the container outlet 12. The container is provided with rotating means 18 in the form of wheels for moving the container, and is further provided with gas-tight doors 19, which are accessible from the outside through the opening element 4 of the furnace.

The device can function as a closed smokeless unit. Alternatively, the exhaust duct 5 may be discharged, for example, into a conventional flue gas duct, with the gas scavenger 16 being connected temporarily, only for some fraction in the mass processing, to collect only the usable gas.

Example 2

Another embodiment of the proposed technical solution is the apparatus for heat treatment of organic matter according to FIG. 3 and 4. This variant of the device is optimal, or in this form the container is universal for thermal decomposition of all carbon materials and is therefore suitable for all organic materials processed by thermal decomposition without burning.

This embodiment of the proposed solution differs from the previous example in that the container comprises not only at least one outlet 12 but also at least one inlet 20. This inlet 20 has a construction similar to that of

Thus, the outlet 12 has one end opening into the cavity 15 inside the container and the other end extending from the outside of the container, where it is elongated so that when the container is placed in the heated chamber 2, this outer end protrudes from both the heated chamber 2 and the insulated body. I furnaces. Here, during operation of the furnace, or only temporarily for a particular stage of material processing, the inlet 20 may be attached to suitable elements supplying suitable medium, useful ingredients, etc., or alternatively may serve to equalize the vacuum in the cavity 15 during cooling, or it may be, if the technical conditions of the process allow it, possibly temporarily connected to the outlet end of the drain channel 5.

The insulated furnace body 1 must be provided with one common aperture or other means for outlet 12 and supply 20, or, as is done, two recesses 17, one of which is for container outlet 12 and the other for container supply 20, suitably sealed against undesired heat leakage.

A batch of material for thermal decomposition without burning, for example biomass from composter, wood chips and others, is placed in a mobile container. The mobile container is closed and fed into the heated furnace chamber 2, its outlet 12 and inlet 20 engaging recesses 17 in the insulated furnace body 1. The oven is closed. The outlet 12 is fastened to the inlet end of the drain channel 5. The shutters 13 of the outlet 12 and possibly the inlet 20 are open or open. The heated furnace chamber 2 begins to heat up. In the first stage of the process at lower temperatures of about 100 to 300 ° C, the moisture and liquid fractions, which are spontaneously discharged or sucked from the container by the suction element W, evaporate to the exhaust duct 5. In the cooled section 7 of the exhaust duct 5 . The condensate is conveyed via the condensate drain 8 to the trap 9. The condensate-free air is then discharged to the flue gas duct or possibly returned via the inlet 20 to the cavity 15 of the container. After this phase, the temperature in the furnace is raised to about 300-500 ° C. At this temperature, the gas usable as fuel gas already flows in the exhaust duct. The condensation components are oily and are collected as a recoverable secondary raw material separated from the previous condensate. If there is an interest in the usable gas to be discharged and used directly, it is taken to the place of use. If it is desired to capture the usable gas, a gas component trap 16 may be attached to the outlet end of the exhaust duct 5, as described in the first example. If necessary, the inlet 20 is also used during or at the end of the mass processing. The inlet 20 can be used only once as needed, for example to additionally supply cool air at the end of the process or to blow the cavity 15 of the container before opening it, and so on. . After the furnace cycle has been completed and the furnace heating chamber 2 is partially cooled, the shutters 13 at both the outlet 12 and the inlet 20 are closed. The container outlet 12 is disconnected from the outlet channel 5 and if the inlet 20 has something connected to it, the inlet 20 is disconnected. opens and the mobile container is swapped for another with a new material charge as far as possible to avoid large heat losses. This eliminates the risk that residual gas may leak into the environment or that non-cooled carbon residues from the treated material may ignite. The mobile container used, containing residual solids in the form of carbon crumb, is conveyed to a suitable location. There they are opened after cooling and the residual masses are distributed for processing as secondary raw materials or used as fuel. The mobile hopper is taken back to the furnace and can be reused, before it can be cleaned and maintained, if necessary.

Claims (7)

PROTECTION REQUIREMENTS Apparatus for the thermal treatment of organic matter, in particular waste, comprising a furnace with an insulated body (1) comprising at least one heated chamber (2), in which there is a working space for charging and thermal decomposition of the material to be processed, the furnace comprising heating elements (3) ) in a space separated from the working space, and the furnace also comprises at least one opening element (4) for accessing its heated chamber (2), the apparatus also being equipped with at least one exhaust duct (5) for exhaust gases with decomposed flue gas wherein the drain (5) during its course comprises at least one cooled section (7) which is provided with at least one condensate collector (8) for catching by cooling the condensation components, the device also comprising the necessary control and closing elements and equipped with at least one container for the supply of material, which can be placed in the heated chamber (2), characterized in that it has a container formed as a mobile closed hollow body, provided with an openable cover (11) with at least one outlet (12), said cover (11) separating the inner cavity (15) of the container from the surrounding space gas-tight, ) is provided from the container with at least one closure (13) and has one end opening into a cavity (15) inside the container and the other end having a protruding outside of the container and extending therein so that if the container is located in the heated chamber 1 from outside the heated chamber (2) and here it is detachably attachable to the inlet end of the exhaust duct (5). The material heat treatment apparatus with a mobile container according to claim 1, characterized in that the container has a cover (11) only with an outlet (12), without supply elements. A mass storage device with a mobile container according to claim 2, characterized in that the outlet (12) from the container is connected to a drain (5) comprising, considered in At least one cooled section (7) followed by at least one closure (13) and at least one detachable gas trap (16). Mass storage thermal treatment apparatus with a mobile container according to claim 1, characterized in that the container is also provided with at least one inlet (20), the inlet (20) having one end opening into a cavity (15) inside the container and the other end extending from the outside of the container, where it is elongated such that in the case of placing the container in the heating chamber (2), the outer end also extends outside the heating chamber (2) and ties releasably attachable to the air and / or other media supply elements. A heat treatment apparatus with a mobile container according to claims 1 to 4, characterized in that the container outlet (12) has an outlet channel (5) connected with at least one suction element (10). Heat treatment apparatus with a mobile container according to claims 1 to 5, characterized in that the insulated furnace body (1) is provided with at least one opening or recess (17) for the container outlet (12) and, if the container is also equipped with an inlet (20), also for supply (20) of the container. A heat treatment apparatus with a mobile container according to claims 1 to 6, characterized in that the container is provided with rotating means (18) for driving on a support and at least one gas-tight door (19), accessible from outside through the opening element. (4) furnaces.