Plant and method for recovering and treating residues from crushing ferrous scrap

The invention claimed is: 1. A plant for recovering and treating residues from crushing scrap, the plant comprising: a first plant part including: a granulator system that is a first grinding or crushing system, the granulator system being configured to crush the scrap and to reduce, in dry mode and without pre-screening stages, residues from crushing into a stream of granular material, a separation means located downstream of the granulator system and configured to extract ferrous materials, non-ferrous metals and plastic materials from said residues from crushing, the separation means comprising: a magnetic separation system configured to separate the ferrous materials from said stream of granular material, a system of separation by density configured to remove light plastic materials from said stream of granular material, a first induced current separator system configured to separate non-ferrous metals from the stream of granular material a multi-stage screening system configured to separate the stream of granular materials into a plurality of fractions of materials, and a mechanic/pneumatic sorting system configured to remove a lightest fraction of the plurality of fractions, separate another quantity of non-ferrous metals, and extract heavy or hard plastic materials from the stream of granular material; and a second plant part including: a means to treat and size the plastic materials, the means to treat and size the plastic materials being a second dry system for cutting and/or grinding the plastic materials to transform said plastic materials into a granular additive material usable as a reducing agent for iron and steel production plants, and a thermomechanical transformation system configured to transform the plastic materials into a series of briquettes or compact cylinders, said second dry system for cutting and/or grinding the plastic materials being located downstream of said thermomechanical transformation system. 2. A method for recovering and treating residues from crushing scrap by the plant according to claim 1 , the method comprising: operating the granulator system, actuated using dry workings, to crush the scrap; separating the residues from crushing by the separation means to extract the ferrous materials, the non-ferrous metals and the plastic materials from said residues from crushing; treating and sizing the plastic materials extracted from said residues from crushing using the second dry system to cut and/or grind the plastic materials to transform said plastic materials into the granular additive material; and using the thermomechanical transformation system to transform the plastic materials into the series of briquettes or compact cylinders, the second dry system being located downstream of the thermomechanical transformation system. 3. The method according to claim 2 , further comprising the following sequential steps: crushing the residues from crushing of the scrap so as to obtain the stream of granular material; extracting the ferrous materials from said stream of granular material by magnetic separation; extracting from the stream of granular material light plastic materials by separation by density; extracting the non-ferrous metals from said stream of granular material by induced currents; and extracting heavy or hard plastic materials by screening. 4. The method according to claim 2 , further comprising at least a step of thermomechanical treatment of the plastic materials. 5. The method according to claim 2 , wherein the plastic materials are subjected to a cutting and/or grinding step so as to obtain the briquettes or compact cylinders to feed into iron and steel plants. 6. The method according to claim 2 , wherein said non-ferrous metals are treated by an induced current separation step, so as to separate the main constituent components. 7. The method according to claim 3 , wherein, downstream of the step of extracting the light plastic materials and upstream of the step of extracting the non-ferrous metals, the method comprises a step of screening the stream of said granular material. 8. The method according to claim 3 , wherein downstream of the step of extracting the non-ferrous metals, the method comprises a further separation step by density of the light plastic materials. 9. The method according to claim 3 , further comprising a final screening step and subsequent separation stage by size/density to obtain clean fragments of a homogeneous size of heavy or hard plastic materials. 10. The method according to claim 3 , further comprising a step of separating heavy chlorinated plastic materials from any remaining heavy plastic materials which do not contain chlorine.