Systems and methods for manufacturing bulked continuous filament

What is claimed is: 1. A system for manufacturing bulked continuous carpet filament, the system comprising: a first section of a melt processing unit, the first section being configured to melt a plurality of polymer flakes to create a first single stream of polymer melt; a separation element configured to receive the first single stream of polymer melt and divide the first single stream of polymer melt into multiple streams of polymer melt; a multiple stream section of the melt processing unit configured to: receive the multiple streams of polymer melt, allow the multiple streams of polymer melt to pass through the multiple stream section and into a receiving section of the melt processing unit, and expose the multiple streams of polymer melt to a pressure within the multiple stream section of the melt processing unit as the multiple streams of polymer melt pass through the multiple stream section of the melt processing unit; and a pressure regulation system configured to maintain a chamber pressure within the multiple stream section of the melt processing unit as the multiple streams of polymer pass through the multiple stream section, wherein: the receiving section of the melt processing unit is configured to: receive the multiple streams of polymer melt, recombine the multiple streams of polymer melt into at least one combined stream of polymer melt, and convey the at least one combined stream of polymer melt toward at least one spinning machine that is configured to form polymer from the at least one combined stream of polymer melt into bulked continuous carpet filament, wherein the system further comprises an intrinsic viscosity management system configured to determine an intrinsic viscosity of the at least one combined stream of polymer melt, and, in response to determining the intrinsic viscosity of the at least one combined stream of polymer melt, instructing the pressure regulation system to adjust the chamber pressure within the multiple stream section of the melt processing unit. 2. The system of claim 1 , wherein: the system further comprises a crystallizer configured to perform a crystallization step on the plurality of polymer flakes prior to melting the plurality of polymer flakes in the first section of the melt processing unit; and the multiple stream section of the melt processing unit is configured to allow the multiple streams of polymer melt to fall into a receiving section of the melt processing unit under the weight of gravity. 3. The system of claim 2 , wherein the receiving section of the melt processing unit comprises a particular extruder that is adapted to recombine the multiple streams of polymer melt into the at least one combined stream of polymer melt. 4. The system of claim 3 , wherein the particular extruder is disposed vertically below the separation element. 5. The system of claim 4 , wherein the separation element is adapted to divide the first single stream of polymer melt into at least 8 streams of polymer melt. 6. The system of claim 5 , wherein: the separation element is adapted to divide the first single stream of polymer melt into at least 100 streams of polymer melt; and the multiple stream section is configured to expose each of the at least 100 streams of polymer melt to the chamber pressure as the at least 100 streams of polymer melt pass through the multiple stream section of the melt processing unit. 7. The system of claim 1 , wherein the system is further adapted for reducing post-consumer recycled polymer material into the plurality of polymer flakes and cleansing the plurality of polymer flakes before melting the polymer flakes. 8. The system of claim 1 , wherein the separation element is an extrusion die defining a plurality of holes, each of the holes creating a respective one of the multiple streams of polymer melt. 9. The system of claim 1 , wherein: the first section of the melt processing unit comprises a single screw extruder; and the receiving section of the melt processing unit comprises a single screw extruder. 10. The system of claim 1 , wherein the plurality of polymer flakes is derived, at least in part, from polyethylene terephthalate (PET) flakes that are derived from recycled PET bottles. 11. The system of claim 1 , wherein: the first section of the melt processing unit is a first extrusion means; the separation element is a polymer melt separation means; the multiple stream section of the melt processing unit is a second extrusion means; the pressure regulation system is a pressure regulation means; and the receiving section of the melt processing unit is a third extrusion means. 12. A system for manufacturing bulked continuous carpet filament, the system comprising: means for melting a plurality of polymer flakes to create a first stream of polymer melt; means for routing the first stream of polymer melt through a separation element to generate multiple streams of polymer melt; means for exposing the multiple streams of polymer melt to a pressure within a multiple stream section of a melt processing unit; means for reducing the pressure of the multiple stream section of the melt processing unit to a chamber pressure; means for, while maintaining the pressure of the multiple stream section of the melt processing unit at the chamber pressure, allowing the multiple streams of polymer melt to pass through the multiple stream section of the melt processing unit into a receiving section of the melt processing unit; means for recombining the multiple streams of polymer melt into at least one stream of polymer melt at the receiving section of the melt processing unit; and means for providing polymer from the at least one stream of polymer melt to at least one spinning machine configured to form the polymer from the at least one stream of polymer melt into bulked continuous carpet filament, wherein the system further comprises an intrinsic viscosity management system configured to determine an intrinsic viscosity of the at least one stream of polymer melt, and, in response to determining the intrinsic viscosity of the at least one stream of polymer melt, adjust the pressure within the multiple stream section of the melt processing unit. 13. The system of claim 12 , wherein allowing the multiple streams of polymer melt to pass through the multiple stream section of the melt processing unit into a receiving section of the melt processing unit comprises allowing the multiple streams of polymer melt to fall through the multiple stream section of the melt processing unit under the weight of gravity. 14. A system for manufacturing bulked continuous carpet filament, the system comprising: a first section of a melt processing unit, the first section being configured to melt polymer to create a first single stream of polymer melt; a separation element configured to receive the first single stream of polymer melt and divide the first single stream of polymer melt into multiple streams of polymer melt; a multiple stream section of the melt processing unit configured to: receive the multiple streams of polymer melt, allow the multiple streams of polymer melt to pass through the multiple stream section and into a receiving section of the melt processing unit, and expose the multiple streams of polymer melt to a pressure within the multiple stream section of the melt processing unit as the multiple streams of polymer melt pass through the multiple stream section of the melt processing unit; and a pressure regulation system configured to maintain the pressure within the multiple stream section of the melt processing unit at a chamber pressure