A white polyester film and a method for manufacturing the same are provided. The method for manufacturing the white polyester film includes: providing a recycled polyester material; physically regenerating a part of the recycled polyester material to form physically regenerated polyester chips having a first intrinsic viscosity; chemically regenerating another part of the recycled polyester material to form chemically regenerated polyester chips having a second intrinsic viscosity less than the first intrinsic viscosity; mixing white regenerated polyester chips, the physically regenerated polyester chips, and the chemically regenerated polyester chips according to a predetermined intrinsic viscosity so as to form a polyester masterbatch material; melting and extruding the polyester masterbatch material to obtain the white polyester film having the predetermined intrinsic viscosity.

Method to produce a polymeric product starting from a primary heterogeneous mixture comprising polymeric material, comprising fragmentation into desired sizing, mechanical primary selection of the fragmented material and plastification, obtaining a densified material which is then subjected to quenching.

Method to produce a polymeric product starting from a primary heterogeneous mixture comprising polymeric material, comprising fragmentation into desired sizing, mechanical primary selection of the fragmented material and plastification, obtaining a densified material which is then subjected to quenching.

Disclosed is a method for precipitating a polymer by adding a precipitation agent into a first suspension to form a second suspension; wherein the first suspension comprises a polymer and an aqueous solvent; and wherein the polymer comprises a copolymer comprising a structural unit derived from an acid group-containing monomer and a structural unit derived from a hydrophobic group-containing monomer. The method for precipitation of a polymer disclosed herein is developed to initiate the bond disruption and/or breakage between the polymer and the aqueous solvent within the second suspension. This is accompanied with the structural transformation of the polymer driven by the intermolecular and intramolecular interactions of the polymer chains which brings about the precipitation of the polymer. The method circumvents both complex separation process and contamination of the polymer, enables excellent materials recovery and allows the precipitation of the polymer to be achieved within a short time frame. An application of the method for precipitating a polymeric binder in a battery electrode is disclosed herein.

Disclosed is a method for precipitating a polymer by adding a precipitation agent into a first suspension to form a second suspension; wherein the first suspension comprises a polymer and an aqueous solvent; and wherein the polymer comprises a copolymer comprising a structural unit derived from an acid group-containing monomer and a structural unit derived from a hydrophobic group-containing monomer. The method for precipitation of a polymer disclosed herein is developed to initiate the bond disruption and/or breakage between the polymer and the aqueous solvent within the second suspension. This is accompanied with the structural transformation of the polymer driven by the intermolecular and intramolecular interactions of the polymer chains which brings about the precipitation of the polymer. The method circumvents both complex separation process and contamination of the polymer, enables excellent materials recovery and allows the precipitation of the polymer to be achieved within a short time frame. An application of the method for precipitating a polymeric binder in a battery electrode is disclosed herein.

Disclosed are extraction solvents used in compositions and methods to refine synthetic feedstocks derived from plastic. Methods of refining plastic-derived synthetic feedstocks are also provided. For example, a method of refining a plastic-derived synthetic feedstock composition may include adding an extraction solvent to a synthetic feedstock composition derived from plastic pyrolyis to provide an extract phase and a raffinate phase, wherein the extraction solvent includes a polar organic extraction solvent immiscible in the synthetic feedstock. The methods may also include separating the raffinate phase from the extract phase to obtain a refined synthetic feedstock.

A method, comprising contacting a plurality of petroleum-derived materials, optionally that comprise plastic in the form of a seal, wire or cable jacket, floor covering, filter, vehicle part, or any combination thereof, with a lipid composition comprising fatty acid moieties to produce an agglomerate, wherein from about 9 wt % to about 40 wt % of the fatty acid moieties are saturated, and wherein at least about 0.5 wt % of the fatty acid moieties are monounsaturated. Further, an apparatus for producing an extrudate from petroleum-derived materials is comprising: (a) a pre-extrusion mixer for contacting a plurality of petroleum-derived materials with a lipid composition comprising fatty acid moieties and a filler to produce a composite, having one or more inlets for receiving the petroleum-derived materials, the lipid composition, and the filler, and an outlet for discharging the composite; and (b) an extruder in fluid communication with the outlet of the pre-extrusion mixer.

A method, comprising contacting a plurality of petroleum-derived materials, optionally that comprise plastic in the form of a seal, wire or cable jacket, floor covering, filter, vehicle part, or any combination thereof, with a lipid composition comprising fatty acid moieties to produce an agglomerate, wherein from about 9 wt % to about 40 wt % of the fatty acid moieties are saturated, and wherein at least about 0.5 wt % of the fatty acid moieties are monounsaturated. Further, an apparatus for producing an extrudate from petroleum-derived materials is comprising: (a) a pre-extrusion mixer for contacting a plurality of petroleum-derived materials with a lipid composition comprising fatty acid moieties and a filler to produce a composite, having one or more inlets for receiving the petroleum-derived materials, the lipid composition, and the filler, and an outlet for discharging the composite; and (b) an extruder in fluid communication with the outlet of the pre-extrusion mixer.

A method is provided for measuring a quantity of super absorbent polymers (SAP) in a sample obtained from post-consumer absorbent sanitary products comprising at least one portion of a portion of cellulose and/or a portion of plastic in addition to a portion of SAP, said post-consumer absorbent sanitary products having been, preferably, previously subjected to at least one treatment comprising the separation of said portions; the SAP contained in said sample comprise linear polyacrylate polymers (LPA) and/or cross-linked polyacrylate polymers (CLPA).

Provided is a method for recycling a water-absorbing resin which contains absorbed liquid, with consideration for a resource aspect and an energy aspect. The method for recycling a water-absorbing resin which contains absorbed liquid includes: discharging the absorbed liquid from the water-absorbing resin which contains the absorbed liquid; and recovering a water-absorbing power of the water-absorbing resin.