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Supply chain coordination with trade credit and price discount with/without environmental considerations

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posted on 2021-05-23, 09:51 authored by Salem Mousa Salem Aljazzar
For a supply chain coordination to be effective and profitable, it requires a working mechanism among its members to entice some players to join a partnership. Two of the well-known trade credits that are widely used by businesses are the permissible delay in payments and price discounts. This thesis presents models for coordinating supply chains with both trade credits. The first model investigates the effect of utilizing delay in payments in a two-level (manufacturer-retailer) supply chain. It modifies and analyzes three known models of different production and shipping policies to account for delays in payments; it then compares them and highlights the production policy that performed the best with the total system cost being the performance measure. The second model analyzes the coordination of a three-level (supplier-manufacturer- retailer) supply chain with the delay in payments. It analyzes nine different scenarios of permissible delay among the three players. A simulation study was performed and a thorough analysis of the results was used to identify the limitations of all scenarios and to draw some managerial insights and findings. The third model investigates the effect of coupling permissible delay in payments and price discounts for coordinating a three-level. The analysis considers nine different cases of delay-in-payments along with eight cases of price discounts among the three players in the supply chain, totaling seventy-two cases. The numerical examples and the sensitivity analyses show that the coupling of delay-in- payments and price discounts maximizes the supply chain profit more than when using a single mechanism at a time. The fourth model investigates a two-level supply chain by studying the effects of various scenarios for delay-in-payments when including some environmental costs such as fuel and emissions from manufacturing and transportation. The objective of the model is to optimize the environmental and the economic performance of the supply chain. The results show that delay-in-payments improves the economic and the environmental performance of a supply chain.

History

Language

English

Degree

  • Doctor of Philosophy

Program

  • Mechanical and Industrial Engineering

Granting Institution

Ryerson University

LAC Thesis Type

  • Dissertation

Year

2017

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    Mechanical and Industrial Engineering (Theses)

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