Waste plastic density separation

What is claimed is: 1. A waste plastic separation method comprising: a) introducing MPW particulates into a first density separation stage to form a particulate plastic solids output stream and a high-density particulate plastic solids stream having a higher average particulate plastic solids density than said particulate plastic solids output stream, and b) feeding at least a portion of said particulate plastic solids output stream into a second density separation stage to form a medium density particulate plastic solids stream and a low-density particulate plastic solids stream, wherein the average particulate plastic solids density of the high-density particulate plastic solids stream is higher than the average particulate plastic solids density of the medium density particulate plastic solids stream, and the medium density particulate plastic solids stream has an average particulate plastic solids density that is higher than the average particulate plastic solids density of low density particulate plastic solids stream, and said low density particulate plastic solids stream and said high density particulate plastic solids stream are combined into a single stream. 2. The method of claim 1 , wherein said second density separation stage separates said first PET-enriched stream into a second PET-enriched stream as said medium density particulate plastic solids stream and a polyolefins-enriched stream as said low-density particulate plastic solids stream. 3. The method of claim 1 , wherein said low density plastic stream comprises less than 10 weight percent PET, said high density plastic stream comprises non-plastic solids and/or heavy plastics having densities greater than 1.41 g/cc, and said non-plastic solids comprise sand, metal, and/or glass. 4. The method of claim 1 , wherein said medium density particulate plastic solids stream is enriched in PET relative to said low density particulate plastic solids stream and/or said high density particulate plastic solids stream. 5. The method of claim 1 , further comprising mixing a salt and/or saccharide with water to form a concentrated salt and/or saccharide solution and feeding said concentrated salt and/or saccharide solution to at least one of said first or second density separation stages. 6. A waste plastic separation method comprising separating a mixed plastic waste (MPW) into a polyethylene terephthalate (PET)-enriched stream and a PET-depleted stream, wherein said PET-enriched stream is depleted in nylons, multi-layer polymer, or multi-component polymers, and said separating comprises a first density separation stage and a second density separation stage, wherein said first density separation stage is a high-density sink-float density separation stage, and wherein said second density separation stages is a low-density centrifugal density separation stage. 7. The method of claim 6 , wherein said PET-enriched stream comprises not more than 1 weight percent nylons on a dry plastic basis, or not more than 10 weight percent multi-layer polymers on a dry basis, not more than 10 weight percent multi-component polymers on a dry basis. 8. The method of claim 6 , wherein said PET-depleted stream is enriched in nylons and the weight ratio of the nylons in the PET-depleted stream to the nylons in the PET-enriched stream is at least 2:1; or the weight ratio of multi-layer polymers in the PET-depleted stream to the multi-layer polymers in the PET-enriched stream is at least 2:1; or the weight ratio of multi-component polymers in the PET-depleted stream to the multi-component polymers in the PET-enriched stream is at least 2:1. 9. A waste plastic separation method comprising separating a mixed plastic waste (MPW) into a polyethylene terephthalate (PET)-enriched stream and a PET-depleted stream, wherein said PET-enriched stream is depleted in nylons, multi-layer polymer, or multi-component polymers, wherein said PET-depleted stream is enriched in nylons and either: (i) the weight ratio of the nylons in the PET-depleted stream to the nylons in the PET-enriched stream is at least 2:1; or (ii) the weight ratio of multi-layer polymers in the PET-depleted stream to the multi-layer polymers in the PET-enriched stream is at least 2:1; or the weight ratio of multi-component polymers in the PET-depleted stream to the multi-component polymers in the PET-enriched stream is at least 2:1.