NO792189L - PROCEDURE AND PLANT FOR THE MANUFACTURE OF A SOLID FUEL IN THE USE OF SOLID WASTE AND WASTE - Google Patents

Description

Procedure and facility for

production of a solid fuel

substance when utilizing fasting

waste and garbage.

It is known that solid waste and garbage from the urban environment are treated according to two basic systems. One of these systems is based on incineration of the waste using fixed incineration equipment, while according to the other system the waste undergoes a series of operations designed to recover and recycle usable materials in the waste.

In the first case, you get an almost complete destruction of the combined materials, with a troublesome residual product together with smoke and exhaust gas products which from an ecological point of view can be harmful, especially because of the disparate components.

In the second case, you get a range of products that can be reused in one way or another. In this connection, reference is made to the many patents belonging to "Sorain Cecchini SpA" which deal with devices and systems for treating solid urban waste with a view to recycling and recycling the components in the waste.

As you know, when choosing municipal solid waste, you get different products, including paper, plastic, plastic-coated paper, rag threads, etc., i.e. a highly flammable material with a low density. Among all these combustible materials there are certain materials that can be reused as fuel, while other materials must be separated to avoid the formation of explosive products and products that are harmful or toxic due to their chemical composition. In other words, in order for municipal solid waste to find recycling as a solid fuel, one must start from selected products that consist of combustible materials, which, however, must not be toxic or in any way harmful from an ecological point of view, per se or by chemical transformation. In the method according to the invention, the municipal solid waste is selected by selecting and extracting from waste paper, light plastic fractions in film form, mainly polyethylene, parts of rags etc., with the exception of such substances which are toxic in themselves or which can form toxic substances as a result of the heat effect or due to connections with other products 1 the municipal solid waste.

Among the materials that must be eliminated, e.g. Polyvinyl chloride is mentioned, even though this substance is in and of itself flammable.

In the method according to the invention, the selected parts of the solid urban waste, consisting of the above-mentioned light fractions, are exposed to a crushing process, i.e. a process where the waste is reduced to extremely small particles, as small as possible, and this material, thus crumbled, is treated in the purpose of reducing its moisture content to a predetermined value. This phase of the process is necessary and important, as the municipal solid waste itself has a variable moisture content, as a result of the different places of origin and the weather conditions, and as a function of the situations under which it is collected, i.e. as a function of conditions that practically varies continuously from day to day. After reducing the moisture content of the selected light fractions that are already in a crumbly state, the thus obtained mixture is homogenized, and after an analysis of the average chemical composition of the obtained mixture, different substances can be added to such a way that in the subsequent combustion the combustion products will in all cases be under control from an ecological standpoint. The procedure and the actual plant will be better understood on the basis of the attached drawing which shows a block diagram of the plant itself.

Referring to the drawing, the municipal solid waste, which is treated in a suitable selector section 1, and from which only the light fractions are extracted, mainly consisting of paper, plastic film (especially polyethylene), rags, wood, etc., which consists of highly flammable materials , but with the exception of material which during the subsequent treatment and subsequent incineration may give rise to toxic or ecologically harmful products, transferred to a mill area 2 where it is reduced to very small particles. The ideal would be to achieve a powder-like mass, but such a state is unattainable as it is impossible to reduce plastic film or similar substances to powder form. It is therefore sufficient that the material to be processed at station 2 is reduced to very small particles. From the mill station 2, the mass is taken to a humidity control station 3.

With a subsequent station 4, the moisture-regulated product is homogenized and mixed, to make room for a mass of

the maximum possible uniformity. The subsequent station 5 is an optional station where the milled, moisture-regulated product, homogenized and mixed, possibly undergoes an addition of chemical or other products designed to effect a control of the material's combustion products. At the exit from station 5, the obtained, complete product can follow two different paths, i.e. it can be sent to pelletisation at station 6, during which the product undergoes a considerable increase in weight, so that you get a more economical transport, even over relatively long distances, while the conditioning the product has received at the previous stations allows long-term storage that would otherwise not be possible due to the general condition of the starting material. Instead of being sent for pelletisation at station 6, the material can be taken directly to silos at station 7 and stored as loose mass.

From station 7, the material, still in a loose mass state, can be sent directly to consumer facilities, i.e. to the burners. The pelletized product will, as mentioned, preferably take the form of small cylinders, and can be stored as such, or it can be sent in containers suitable for use, to burners which may be located far from the production site.

As mentioned above, the process of converting a batch of solid urban waste into a combustible product entails significant advantages and enables the recovery of a material which is rich in potential heat energy, but which in the present state is dispersed, which also entails the danger of contamination of the atmosphere. As previously mentioned, the essential feature of the fuel according to the present invention consists in the fact that from the materials that make up the solid urban waste, such materials are removed, for a selection, that in themselves or due to the effect of their chemical combination with other products that occur in the municipal solid waste, which can give rise to toxic or harmful substances, particularly polyvinyl chloride being excluded. Of course, light fractions come into consideration, including cardboard or cardboard, but all other heterogeneous substances in the above-mentioned waste are removed, which are not combustible or which are difficult to burn or which are combustible but with harmful effects.

An important feature of the fuel according to the invention is furthermore the uniformity in quality which provides even conditions during the combustion phases, so that you get constant and at the same time high temperatures and thus an ideal utilization under the best possible ecological conditions, and with the production of a particularly reduced amount of ash which will also be free of unburned parts and will also be easy-flowing.

The plant has been described and illustrated with help

of a block diagram as the machines, devices and devices that are suitable for realizing the various operations at the stations are of the kind that in practice are found in the industry without the need for new constructions and special modifications beyond what a specialist in the field can do.

It will be clear that both the method and the plant can include variations which do not involve major modifications, but which are within the framework of the accompanying requirements.

Claims (7)

1. Method for the production of a solid fuel by utilizing solid waste and rubbish, characterized in that light fractions are selected from the mass of solid waste and rubbish which essentially consist of paper, cardboard, plastic film, wood, rags and the like, that they light fractions are subjected to a grinding operation and then to a regulation or control of the moisture content. 2.. Method according to claim 1, characterized in that the humidity control phase is followed by a homogenization and mixing phase and possibly a phase for the addition of substances designed to modify the products from the combustion that then takes place, in such a way that the products do not become toxic or in any way ecologically harmful. 3. Method according to claim 1 or 2, characterized in that the produced combustible product is subjected to pelletisation in order to achieve an increase in specific gravity, to enable economical transport to areas far from the production site. 4. Installation for carrying out the method according to claims 1-3, characterized in that it includes stations in which the previously selected material is subjected to a grinding operation, then regulated for moisture content, homogenised and mixed, and possibly added substances designed to modify the structure or the chemical state of the combustion products as a result of the combustion of the fuel itself, as the humidity-regulating phase, quite apart from other advantages, has the advantage of preventing fungus formation and fermentation of the silic fuel product. 5. Plant according to claim 4, characterized in that the pelletized product is utilized as such or after repeated crushing operations, while the product in loose mass form can be directly utilized when it reaches the burners near the production sites from the silo. 6. Installation according to one or more of the preceding claims, characterized in that the produced product is recovered from the fraction of the solid waste which has a high calorific value and therefore allows a flawless combustion which takes place at high and constant temperatures, so that the combustion gases can appear under the best possible conditions, without the characteristic changes associated with irregular combustion. 7. Plant according to one or more of the preceding claims, characterized in that the remaining ash is present in a very reduced quantity and, above all, is free of unburnt parts and is easy-flowing, which allows easy and quick utilization of the fuel produced.