Methods for manufacturing bulked continuous filament

What is claimed is: 1. A method of manufacturing bulked continuous carpet filament, the method comprising: (A) washing a plurality of flakes comprising recycled PET; (B) providing a PET crystallizer; (C) after the step of washing the plurality of flakes comprising recycled PET, passing at least a portion of the plurality of flakes comprising recycled PET through the PET crystallizer; (D) providing an expanded surface area extruder, wherein the expanded surface area extruder defines an expanded surface area extruder inlet and an expanded surface area extruder outlet, and an MRS Section comprising: a plurality of satellite screws, each of the plurality of satellite screws being at least partially housed within a respective extruder barrel and mounted to rotate about its respective central axis; and a satellite screw extruder support system that is adapted to orbitally rotate each of the plurality of satellite screws about a main axis as each of the plurality of satellite screws rotate about its respective central axis, the main axis being substantially parallel to each respective central axis; (E) providing a pressure regulation system configured to reduce a pressure within at least a portion of the expanded surface area extruder; (F) providing a spinning machine defining a spinning machine inlet, wherein the spinning machine inlet is operatively coupled to the expanded surface area extruder outlet; (G) using the pressure regulation system to reduce the pressure within the at least a portion of the expanded surface area extruder; (H) after passing the plurality of flakes comprising recycled PET through the PET crystallizer, passing the plurality of flakes comprising recycled PET through the expanded surface area extruder via the expanded surface area extruder inlet to at least partially melt the plurality of flakes to form a polymer melt; and (I) substantially immediately after passing the plurality of flakes through the expanded surface area extruder, using the spinning machine to form the polymer melt into bulked continuous carpet filament. 2. The method of claim 1 , wherein the expanded surface area extruder is configured to increase a surface area of the polymer melt as the polymer melt passes through the expanded surface area extruder utilizing at least eight different streams of polymer melt. 3. The method of claim 2 , wherein the method further comprises exposing the at least eight different streams of polymer melt to the pressure within the at least the portion of the expanded surface area extruder. 4. The method of claim 3 , wherein using the pressure regulation system to reduce the pressure within the at least the portion of the expanded surface area extruder comprises reducing the pressure to below about 25 millibar. 5. The method of claim 1 , wherein the PET crystallizer comprises: one or more heating elements configured to raise a temperature within the PET crystallizer; and one or more blowers configured to blow air that has been at least partially heated by the one or more heating elements over the plurality of flakes comprising recycled PET as the plurality of flakes pass through the PET crystallizer. 6. The method of claim 5 , wherein the one or more blowers are configured to blow the air from a bottom portion of the PET crystallizer. 7. The method of claim 5 , wherein the PET crystallizer is configured to at least partially dry a surface of the plurality of flakes comprising recycled PET. 8. The method of claim 7 , wherein the PET crystallizer is configured to reduce a moisture content of the plurality of flakes comprising recycled PET to below about 50 ppm. 9. A method for manufacturing bulked continuous carpet filament, the method comprising: providing a crystallizer; providing an extruder, wherein the extruder comprises a chamber and defines an extruder inlet and an extruder outlet; providing a pressure regulation system configured to reduce a pressure within the chamber; providing a spinning machine defining a spinning machine inlet, wherein the spinning machine inlet is operatively coupled to the extruder outlet; using the pressure regulation system to reduce the pressure within the chamber; passing a plurality of polymer flakes through the crystallizer; after passing the plurality of polymer flakes through the crystallizer, melting the plurality of polymer flakes to create a polymer melt; using the extruder to separate the polymer melt into a plurality of different streams, the plurality of different streams comprising at least eight streams of the polymer melt; exposing each of the at least eight streams of the polymer melt to the pressure while the at least eight streams of the polymer melt are in the chamber; after exposing the at least eight streams of the polymer melt to the pressure, recombining the at least eight streams into a single polymer stream; and substantially immediately after recombining the at least eight streams into the single polymer stream, using the spinning machine to form polymer from the single polymer stream into bulked continuous carpet filament having a tenacity between about 3 gram-force per unit denier and about 9 gram-force per unit denier. 10. The method of claim 9 , wherein using the spinning machine to form polymer from the single polymer stream into bulked continuous carpet filament substantially immediately after recombining the at least eight streams into the single polymer stream comprises passing the single polymer stream directly to the spinning machine inlet via the extruder outlet. 11. The method of claim 9 , wherein using the pressure regulation system to reduce the pressure within the chamber comprises reducing the pressure within the chamber to below about 25 millibar. 12. The method of claim 9 , wherein the crystallizer comprises: one or more heating elements configured to raise a temperature within the crystallizer; and one or more blowers configured to blow air that has been at least partially heated by the one or more heating elements over the plurality of polymer flakes as the plurality of polymer flakes pass through the crystallizer. 13. The method of claim 12 , wherein the one or more blowers are configured to blow the air from a bottom portion of the crystallizer. 14. The method of claim 13 , wherein the crystallizer is configured to at least partially dry a surface of the plurality of polymer flakes. 15. The method of claim 14 , wherein the crystallizer is configured to reduce a moisture content of the plurality of polymer flakes to below about 50 ppm. 16. The method of claim 12 , wherein the crystallizer comprises a stirring apparatus configured to stir the plurality of polymer flakes as the plurality of polymer flakes pass through the crystallizer. 17. The method of claim 9 , wherein the method further comprises, prior to passing the plurality of polymer flakes through the crystallizer, washing the plurality of polymer flakes to remove at least a portion of one or more contaminants from the surface of the plurality of polymer flakes. 18. A method of manufacturing bulked continuous carpet filament, the method comprising: (A) providing a PET crystallizer; (B) passing at least a portion of the a plurality of flakes comprising recycled PET through the PET crystallizer to at least partially dry a surface of the plurality of flakes comprising recycled PET; (C) providing an expanded surface area extruder, wherein the expanded surface area extruder defines an expanded surface area extruder inlet and an expanded surface area extruder outlet, and an MRS Section d