PET bottle recycling

The recycled material can be put back into bottles, fibres, film, thermoformed packaging and strapping.

These bottles are closed with polyolefin screw closure with antitamper ring, and have a label which may be printed on paper or plastic and may be glued on.

This step is especially common in areas where MRFs are located far from collection points Here the PET bottles are sorted and separated from other objects and bottles made of other materials The sorted post-consumer PET bottless are flattened, pressed into bales and offered for sale to recycling companies.

Polyethylene terephthalate can be depolymerized partially or completely to yield the constituent oligomers or the monomers, MEG and PTA or DMT.

[20] Partial glycolysis (transesterification with ethylene glycol) converts the rigid polymer into short-chained oligomers that can be melt-filtered at low temperature.

This aim is solved by degrading the PET bottle flakes—already during their first plasticization, which can be carried out in a single- or multi-screw extruder—to an intrinsic viscosity of about 0.30 dℓ/g by adding small quantities of ethylene glycol and by subjecting the low-viscosity melt stream to an efficient filtration directly after plasticization.

The destruction of the hydro peroxide groups is, with other processes, already carried out during the last step of flake treatment for instance by adding H3PO3.

The reaction involved is as follows:[19] This recycling route has been executed on an industrial scale in Japan as experimental production.

[citation needed] converts the polyester to dimethyl terephthalate(DMT), which can be filtered and vacuum distilled:[19] Even though polyester production based on dimethyl terephthalate(DMT) is limited to legacy plants,[22] investments were announced in 2021 and 2022 into methanolysis plants.

In April 2020, a French university in collaboration with Carbios announced the discovery of a highly efficient, optimized enzyme claimed to outperform all PET hydrolases reported so far.

The chemical recycling where transesterification takes place and other glycols/polyols or glycerol are added to make a polyol which may be used in other ways such as polyurethane production or PU foam production[27][28]The bales consisting mostly of PET mostly of a single colour are delivered to plants where the bottles may be treated by a variety of processes to convert them into usable feedstocks.

A typical system will consist of a steel housing with the filtration medium contained in moveable pistons or slide plates that enable the processor to remove the screens from the extruder flow without stopping production.

The success of any recycling concept is hidden in the efficiency of purification and decontamination at the right place during processing and to the necessary or desired extent.

The high plasticization temperature of PET in the range of 280 °C (536 °F) is the reason why almost all common organic impurities such as PVC,[37] PLA, polyolefin, chemical wood-pulp and paper fibers, polyvinyl acetate, melt adhesive, coloring agents, sugar, and protein residues are transformed into colored degradation products that, in their turn, might release in addition reactive degradation products.

Besides efficient sorting, the removal of visible impurity particles by melt filtration processes plays a particular part in this case.

Depending on composition and impurity level of input material, the general following process steps are applied.

As far as recycled PET bottles are concerned, the defects mentioned can be sorted in the following groups: Taking into consideration the above-mentioned chemical defects and impurities, there is an ongoing modification of the following polymer characteristics during each recycling cycle, which are detectable by chemical and physical laboratory analysis.

In particular: The recycling of PET bottles is meanwhile an industrial standard process that is offered by a wide variety of engineering companies.

Some exceptions like BOPET-film of low thickness, special applications like optical film or yarns through FDY-spinning at > 6000 m/min, microfilaments, and micro-fibers are produced from virgin polyester only.

Product is an amorphous re-granulate of an intrinsic viscosity in the range of 0.55–0.7, depending on how complete pre-drying of PET flakes has been done.

The fact that some machine manufacturers and line builders in Europe and the United States make efforts to offer independent recycling processes, e.g. the so-called bottle-to-bottle (B-2-B) process, such as Next Generation Recycling (NGR), BePET, Starlinger, URRC or BÜHLER, aims at generally furnishing proof of the "existence" of the required extraction residues and of the removal of model contaminants according to FDA applying the so-called challenge test, which is necessary for the application of the treated polyester in the food sector.

[citation needed] With regard to the consumption of PET bottle flakes, the main portion of about 70% is converted to fibers and filaments.

For the time-being, the amount of POY made of 100% recycling polyester is rather low because this process requires high purity of spinning melt.

[citation needed] One field of increasing interest where recycled materials are used is the manufacture of high-tenacity packaging stripes, and monofilaments.

[citation needed] PET polymer is very sensitive to hydrolytic degradation, resulting in severe reduction in its molecular weight, thereby adversely affecting its subsequent melt processability.

Therefore, it is essential to dry the PET flakes or granules to a very low moisture level prior to melt extrusion.

If the air dew point is not good, then some moisture remains in the chips and cause IV loss during processing.

300ppm in one step, and down to <50 ppm using a buffer hopper to complete the drying in typically under 1 hour Worldwide, approximately 7.5 million tons of PET were collected in 2011.

PET is useful for this purpose because many other materials (including window glass) that are transparent to visible light are opaque to ultraviolet radiation.

Studies have shown that mechanical recycle has a lower environmental impact than incineration, due to avoided new raw material production.

Smart water bottle
Dasani water bottle
ID symbol for recycle [ 11 ]
Bales of crushed PET bottles sorted according to color: blue, transparent, and green.
Bales of crushed PET bottles.
Waste PET bottles that are used for an Eco-slab plastic sit out
Sanitation and PET waste bottles gathering
Reverse vending machine for empty beverage cans and PET bottles in an Aldi supermarket in Germany.
Recycling bins usually include one for glass and/or plastic bottles, such as Urban Environmental Management and Technology in Singapore .
Workers sort an incoming stream of various plastics, mixed with some pieces of un-recyclable litter.
Bales of crushed blue PET bottles.
Bales of crushed PET bottles sorted according to color: green, transparent, and blue.
Pellets of food grade recycled PET
IRD drying drum used for the drying of Polyester pellets and polyester bottle flakes
Dog raincoat made from recycled PET fabric.