GR1010075B - Method for the recovery of raw material from multi-layered food package waste for the production of particle boards, builidng and insulation materials - Google Patents

Abstract

The invention relates to the mechanical and chemical treatment, without separation, of paper waste containing plastic and aluminium admixtures; said paper waste are derived from difficult-to-manage and unsatisfactorily recyclable disposable multi-layered packaging materials destined to be converted into a manageable mass of dry granules from which a variety of new products are produced; it founds application in the construction and insulation industry, the furniture industry, the particle boards industry and related uses.

Description

DESCRIPTION

Method of recovering raw material from waste multilayer food packaging, for the production of chipboard. structural and refractory materials.

Multi-layered food packaging becomes waste after its one and only use and ends up in municipal waste landfills. They consist of mixed materials in layers, with a dominant percentage of 70 to 85% paper, 15 to 30% polymer film, where depending on the application and use as a packaging material, it also has a different chemical composition and 5 to 10% aluminum. However, on a case-by-case basis, types of packaging with another layer of another material are not excluded. The separation of multilayer materials into pure raw materials and the recovery of energy from them is either impossible or extremely expensive.

For this reason, we developed the process of recovering raw material in granular form - without separation, by shredding the compressed used packaging into 5 to 10 mm "leaflets", chemical inactivation of any biological residues, homogenization and stabilization, and then agglomeration by mechanical crushing (7-9 bar) in a circular motion.

All the above packaging materials are primary (not from recycling), since they are used in a large percentage in food packaging. In addition, due to the compression during their production, they have optimal physical, mechanical properties (moisture resistance, relative acoustics, structural strength, thermal insulation, sound insulation, etc.), thus enhancing these properties with our processing method. The resulting granules are further compressed, through a press, a heated press (60-80°C), in molds with additional glues, adhesives or other additives, in order to give the raw material the additional properties we want depending on the application for which it is intended (similar building blocks, insulating panels, filler for chipboards, etc.). Also, depending on the use and the required properties that the final product must have, the density of the material, the specific gravity and the air content of the mass are also determined.

Mixed grain production process

The production process takes place with the dominant and basic priority of the lowest possible consumption of energy and resources. The production unit can be located near waste collection and sorting units and designed according to the resulting quantity.

With this method, the full recovery and exploitation of the multi-layer laminated single-use packaging and the production of other long-lasting products are achieved.

which is not recycling materials, but is used either for different materials or for other applications. The production line consists of a loading belt, optical or mechanical separation of foreign objects such as stones, wood, magnet for holding metallic elements DRAW 1 (1), shredding and homogenizing mill DRAW 1 (2), agglomeration condenser DRAW 1 (3), granulator SCHEDULE 1 (4) and execution SCHEDULE 1 (5). Due to the fact that the material is mixed, separation is limited to a minimum, since apart from inert materials, metals, and wood, all other (packaging) materials can be present in the mixture and in an unspecified proportion. This minimizes waste resulting from screening.

The dry pieces that come out of the condenser are in the form of granules with a granulometry of the order of 3 millimeters in diameter. The resulting raw material can be used, with the addition of the appropriate (each time different) cohesive substances, such as organic glues, lime or resins, for different uses and given the desired shape, through compression in molds and/or compression with heating (60-80°C).

The products resulting from this process have a spongy texture, a rough surface, with high adhesion, which makes them ideal for plastering and can be used as long-life insulating building blocks.

Technical level

Several traditional products have a similar philosophy. In other words, they consist of a residue of a production process, such as the fine gravel of the cement block, or the smaller particle size powder of the porous stone, or the sawdust of the chipboard, or the rockwool which is silicon-aluminum oxide fibers, a waste of steel production.

However, the differences and advantages of the products resulting from our process, compared to other traditional materials, are important: 1. The circular crushing method transforms the material into processable grains of fibers or leaflets that usually result from shredding.

2. The resulting material is already from the production process of the original product (multilayer food packaging), a ready, compressed, homogenized mixture of materials that have the desired properties for the final product, such as thermal insulation and sound insulation, etc. and our process transforms - without separating the individual materials (paper, plastic, aluminum) - into granules, in order to make it workable, trapping air cells at the same time, while it can take any desired shape.

3. The raw material comes from a single source, while the other traditional products must be gathered from different places, with what this implies (financial and environmental costs).

4. The production of products from our raw material implies a reduction in the amount of waste in the landfills of a non-recyclable waste and thus a huge environmental benefit.

5. The raw material comes by a large percentage (80%) from plant fibers, which are planted for the production of multi-layer packaging and thus it is not a material that will be mined and disappear from nature, like sand for example.

6. The energy required for production is minimal compared to traditional products, because as we mentioned above, the materials of which it is composed are already a mixture, no high temperature treatment is required.

7. Up to now the attempts to manage and recover clean material from the waste in question, through separation into raw materials (recycling), are judged to be unsuccessful, are expensive, require complex sequential processes and expensive equipment, consume large amounts of water and energy, which makes it economically unprofitable.

8. There are corresponding finished products (in Switzerland and Canada) with raw material plant fibers derived from hemp cultivation (and not from waste) mixed with lime or cement mortar that have similar characteristics (thermal insulation, sound insulation, non-flammability, etc.), which present similar properties regarding workability, plasticity, breathability, etc. which, however, require land, water, more work and energy, while they have not been shaped into grains first.

Claims (4)

1. Method of raw material recovery from mixed material waste, multilayer food packaging, characterized by a stable composition, consisting of mixed materials, with a predominant percentage of 70% to 85% paper, 15% to 30% polymer film and 5% to 10% aluminium, derived from the collection of single-use packaging and other similar municipal waste, without separation into paper, plastic and aluminium, through shredding into leaflets, chemical inactivation of any biological residues, homogenization and stabilization and subsequent aggregation through mechanical crushing with a circular motion, i.e. compression and friction with simultaneous rotation and pressure and compression under heating in the form of granules, without pulverization as in existing technologies, stabilization with additives, i.e. adhesives and materials with volatile additives, has new properties and a variety of applications depending on the composition and specific weight, thermal insulation, sound insulation, audibility, structural strength, related to the intended purpose the use, where by means of compression and with the addition of aggregates it forms structural elements, plinths of the type of cement block or pumice stone with a low specific weight, maintaining and strengthening through the creation of cells, the same physical properties of the original materials, i.e. thermal insulation, sound absorption, waterproofing, acoustics, forming a special adhesion surface, which presents ease of application and management and can be processed by technical personnel. 2. Method of recovery of raw material from mixed material waste, multilayer food packaging, characterized by a stable composition, consisting of mixed materials, as in CLAIM 1, where in primary form pellets and with on-site processing and mixing at the point of its application, with fluidizers, it can be used as a self-leveling material, mortar-type plaster, which has insulating properties, heat and sound, thanks to cells of compressed paper plastic. 3. Method for recovering raw material from mixed material waste, multilayer food packaging, characterized by a stable composition, consisting of mixed materials, as in CLAIM 1, where in the form of granules, without pulverization as in existing technologies, stabilization with additives, adhesives and materials with volatile impurities, it has the insulating properties of the original material, enhanced by mechanical and chemical processing which creates additional air cells, waterproofing, acoustics, depending on the intended use as an insulator. 4. Method for recovering raw material from mixed material waste, multilayer food packaging, characterized by a stable composition, consisting of mixed materials, as in CLAIM 1, where in the form of granules and not through pulverization or simply cut into leaflets, as in the existing technologies and then stabilization with additives, i.e. glues and materials with volatile additives, can take any shape through pressure with heating and perfectly replace chipboard production products, with the corresponding properties, for kitchen counters, doors, wardrobes, all kinds of backgammon, furniture fittings. During this process, the plastic polymer already present in the paperboard mass melts, diffuses into the surrounding area, penetrates it and is chemically linked, so as to provide additional adhesive and stabilizing properties to the chipboard.