WO2019056033A1

WO2019056033A1 - Method for processing non-absorbent powder materials

Info

Publication number: WO2019056033A1
Application number: PCT/AT2018/060215
Authority: WO
Inventors: Jiri Dobner
Original assignee: Greiner Packaging International Gmbh
Priority date: 2017-09-19
Filing date: 2018-09-17
Publication date: 2019-03-28
Also published as: CZ2017557A3; EP3684522A1

Abstract

The invention relates to a method for processing non-absorbent powder materials such as toner, wax and polymer materials, particularly waste substances, for their subsequent transportation, storage and use, said method consisting in first mixing, in a homogenizing machine, the non-absorbent powder material with absorbent material having a particle size of 1 μm to 20 mm and with a liquid component, or with a product of an intermediate treatment of said absorbent material, with a liquid component such as sludge. The homogenized mixture obtained in this manner, with a minimum weight percentage of 3% of the liquid component, is compressed at a pressure of up to 40 MPa. The temperature to which the compressed mixture is heated, measured across the whole cross-section of the compressed mixture, does not exceed 80°C. The local temperature increase upon mechanical modification during compression is limited by a limiting temperature of 350°C.

Description

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Process for processing nonabsorbent piezoelectric materials

Field of engineering

The invention relates to a method for processing nonabsorbent powdered materials, in particular waste materials, for subsequent transport, storage and use.

State of the art

Nowadays, the appropriate processing of non-absorbent powder provides deformed

One specific example could be the search for uses of waste toner powder - a waste that arises when recycling toner cartridges into computer printers and copiers. The residual toner powder is currently mostly landfilled, with the possibility of its subsequent recovery, which so far dominated its combustion. In any case, the fine powder must be processed in a suitable manner, as it may be explosive in the air environment.

An example may be the treatment of waste toners for fuel according to Japanese Patent JP5925542. The waste toner is mixed with the waste oil and the wood biomass (such as wood dust, shavings, sawdust, crushed rice or paper waste). The prepared mixture in the liquid or Haibflüssigen state is then poured into the boiler or combustion chambers. The disadvantage of this method is the complicated handling of a liquid or semi-liquid fuel or the transport of a waste toner powder in this processing.

A similar logistical problem also exists in another solution according to the European patent application EP 2915652, in which the toner powder is processed into a plastic masterbate. This solution as a special plastic technology requires a highly specialized system - a vented twin-screw extruder. However, this is very problematic in terms of storage of the toner, and it will probably not be possible under the current state of the art to avoid the problems of complicated handling of the waste toner powder when it is being transported for processing by the mentioned plastic technology. Subject of the invention

To overcome the above-mentioned disadvantages, the method contributes to the processing of non-absorbent powdered materials, in particular the waste materials, for subsequent transport, storage and use to a great extent. Its essential feature is that the nonabsorbent powdery material first in the first phase in a homogenizer with absorbent material having a particle size of 1 .mu.m to 20 mm and a liquid component or an intermediate for pretreatment of the absorbent material with a liquid component, such as sludge , is mixed. The thus obtained homogenized mixture with a minimum weight of 3% of the liquid component is compressed under pressure up to 40 MPa. The temperature to which the compressed mixture is heated, measured over the entire cross-section of the compressed mixture, does not exceed 80 ° C and the local temperature increase with mechanical change during compression is limited by a limit temperature of 350 ° C.

The densification of the homogeneous mixture of nonabsorbent and absorbent powdered material with the liquid component by pressing to 40 MPa is preferably carried out in a rotating horizontal pelletizer with rotating rolls and a fixed or rotating die or in a briquetting device.

The non-absorbent material is a material of inorganic origin, an organic material comprising a polymeric base which is non-absorbent and a liquid component which is repellent or neutral, or a mixture of such materials of inorganic and organic origin. It is primarily a material from the group consisting of toners, polypropylenes (PP), waxes, polyurethanes (PUR), polyethylene terephthalate (PET), polyoxymethylene (POM), polyamide (PA), polybutylene terephthalate (PBT ), toughened polystyrene (HIPS), acrylonitrile-butadiene-styrene copolymer (ABS), polycarbonate (PC), especially in the form of their wastes.

Absorbent material is a material containing organic or inorganic constituents which combine with liquid components, such as materials from the group consisting of grain debris, corn meal, chaff, flour, corn and maize dust and mixtures thereof, straw, hay and their dusts, including manure, biomass, cellulose, lignin, starch, wood waste, paper dust, silica gel, inorganic foams and drying agents having absorbent properties, oil binders, gelatin and coal dust. The liquid component is a solution or emulsion of an acidic, basic or neutral composition with a minimum water content of 5%.

The main advantage of the invention according to the invention is that it enables the processing of nonabsorbent powdery materials, such as waste toner, recycled toner cartridges from computer printers and copiers directly in the place of their disposal in the form of pellets or other compacted powder forms of particles and thus greatly facilitates handling with subsequent transport, storage and use. Another significant advantage is that the powder toner or the powder mixture after reprocessing the status of the explosion class ST1, ST2 or ST3 to non-explosive, easily transportable and processable change without increased explosion requirements, if the particles are not comminuted again in the dust state and there is no perfect explosive mixture.

Examples of the realization of the technical solution

example 1

The nonabsorbent powdery material - in one specific embodiment, the residual toner powder from the recycling of toner cartridges from computer printers and copiers at 40% by weight first in a homogenizer with 40% by weight of the absorbent material, namely a mixture of cereal and corn dust particles of »of the liquid component 20 mm, with 20 weight ⁰ / - in particular an aqueous emulsion of water mixed with a water content of at least 10%.

The thus obtained homogenized mixture with a weight fraction of 20% of liquid component is then compressed by compression to 40 MPa, the temperature at which the heated mixture is heated, measured over the cross section of the compressed mixture, does not exceed 80 ° C and the local temperature increase during the mechanical change in compression is limited by a limit temperature of 350 ° C. The compression of the homogenized mixture of non-absorbent and absorbent powdered material with a liquid component by compression to 40 MPa is carried out in a rotating horizontal pelletizer with rotary drawers. The resulting pellets are suitable as a solid fuel. Example 2

Absorbent powdery material - in the concrete embodiment, first the residual toner powder of recycled toner cartridges of computer printers and copiers of 30% is first mixed in the first phase in the homogenizer with 20% of the material that absorbs the material, namely a mixture of polyurethane dust with a particle size of up to 10mm, and with 40% of the absorbent material, namely a mixture of corn and corn dust, and with 10% of a liquid component having a water content of at least 10%. The water content in the liquid component is thus at least 10% by weight.

The homogenised mixture thus obtained, containing 10% by weight of liquid component, is then compressed by compression to 40 MPa, the temperature at which the heated mixture is heated, measured over the cross-section of the compacted mixture, does not exceed 80 ° C and the local Temperature increase during the mechanical change in compression is limited by a temperature limit of 350 ° C.

The compression of the homogenized mixture of non-absorbent and absorbent powdery material with a liquid component by compression to 40 MPa is carried out in a rotating horizontal pelletizer with rotating rolls. The resulting pellets serve as a solid fuel.

Example 3

Absorbent powdery material - in the concrete embodiment, first the residual toner powder of recycled toner cartridges of computer printers and copiers is mixed with 30% first in the first phase in the homogenizer with 20% of the nonabsorbent material, namely a mixture of polyurethane dust with a particle size of up to 10mm, and with 50% by weight of the liquid component - namely a water emulsion with the water weight fraction of at least 20%. _ ^ _

The thus obtained homogenised mixture with a weight fraction of 20% in the liquid component is then compressed by compression to 40 MPa, the temperature at which the heated mixture is heated, measured over the cross section of the compressed mixture, does not exceed 80 ° C and the local temperature increase during the axial change during compression is limited by a limit temperature of 350 ° C.

The compression of the homogenized mixture of non-absorbent and absorbent powdered material with a liquid component by compression to 40 MPa is carried out in a rotating horizontal pelletizer with rotating rolls. The obtained pellets can be used as a solid fuel.

The% values given above always refer to proportions by weight of the materials and / or the materials of the entire mixture.

As used herein, the term "particular" is understood to be a possible more specific embodiment or specification of an object or method step, but is not necessarily a compelling preferred embodiment thereof or a compulsory procedure.

The embodiments describe possible Ausfuhrungsvarianten, it being noted at this point that the invention is not limited to the specifically illustrated embodiments thereof, but also various combinations of the individual embodiments untereina of possible and this variation possibility due to the teaching of technical action by representational invention in the knowledge of the person working in this technical field.

Claims

Patent claims

A process for treating non-absorbent powdery materials, in particular waste materials, for subsequent transport, storage and use, characterized in that the non-absorbent powdery material first in a homogenizer with absorbent material having a particle size of 1 to 20 mm and with a liquid component, or with a product of an intermediate treatment of the absorbent material with a liquid component, such as sludge, after which the resulting homogenized mixture is compressed to a minimum of 3% of the liquid component under pressure up to 40 MPa, the temperature to which the compressed mixture is heated, measured over the entire cross-section of the compressed mixture, does not exceed 80 ° C and that the local temperature increase with mechanical change during compaction is limited by a limit temperature of 350 ° C.

2. A method according to claim 1, characterized in that the compression of the homogenized mixture of nonabsorbent and absorbent powdered material with the liquid component by compression up to 40 MPa in a rotating horizontal pelletizer with rotating cylinders and a solid or rotating matrix or in a Brikettiervorrichtung is performed.

A method according to claim 1 or 2, characterized in that a material of inorganic origin is used as the non-absorbent material, an organic material comprising a polymeric base which is non-absorbent, and a liquid component which is repellent or neutral, or a mixture of such materials of inorganic and organic origin.

4. The method according to any one of the preceding Ansprächen, characterized in that at least one material selected from the group consisting of toners, polypropylenes (PP), waxes, polyurethanes (PUR), polyethylene terephthalate (PET), polyoxymethylene (POM), polyamide (PA), Polybutylene terephthalate (PBT), tough polystyrene (HIPS), acrylonitrile-butadiene-styrene copolymer (ABS), polycarbonate (PC) is used, especially in the form of their waste.

A method according to claim 1, characterized in that a material containing organic or inorganic constituents which combine with liquid components, such as materials selected from the group consisting of cereal waste, corn meal, chaff, flour, cereals, is used as the absorbent material and cornmeal and mixtures thereof, straw, hay and their dusts, including manure, biomass, cellulose, lignin, starch, wood waste, paper dust, silica gel, inorganic foams and drying agents having absorbent properties, oil binders, gelatin and coal dust.

6. The method according to claim 1, characterized in that a solution or emulsion of an acidic, basic or neutral composition is used with a minimum water content of 5% as the liquid component.