Table 10.
Circular strategy at the production chain level.
| Circular Strategy at the Production Chain Level | |||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|
| References | R0 | R1 | R2 | R3 | R4 | R5 | R6 | R7 | R8 | R9 | Research |
| [19] | X | Innovative value co-creation through collaboration model in garden market plastic films. | |||||||||
| [23] | X | PCPW Recycling network level of types & material. | |||||||||
| [32] | X | Eco-design along the production chain. | |||||||||
| [85] | X | PCPW focus on stakeholders' value chain. | |||||||||
| [86] | X | Integrating systemic thinking in value chain of stakeholders for PCPW. | |||||||||
| [95] | X | Designing for Recycling (DfR) for bio-based polymers and recycling infrastructure system constraints. | |||||||||
| [111] | X | X | Collaborative value chain for circular business model. | ||||||||
| [165] | X | Distributed plastic recycling using 3D printer using closed supply chain network. | |||||||||
| [178] | X | X | Investigate the structure of potential supply chain of OFMSW to identify bottlenecks (bioplastic) | ||||||||
| [190] | X | X | Optimization on end-to-end supply network design to reduce waste in Scotland agriculture. | ||||||||
| [233] | X | Islamabad and Rawalpindi industrial circular plastic consumption cycle. | |||||||||
| [244] | X | X | Legacy additives in the plastic waste stream from improper disposal, treatment option and regulation. | ||||||||
| [139] | X | Mathematical modelling of supply chain complexity to identify possible optimum recycling centres. | |||||||||
| TOTAL | 3 | 0 | 1 | 1 | 0 | 0 | 0 | 0 | 12 | 0 | |
LEGEND: R0 = Refuse; R1 = Rethink; R2 = Reduce; R3 = Reuse; R4 = Repair; R5 = Refurbish; R6 = Remanufacture; R7 = Repurpose; R8 = Recycle; R9 = Recover.