Abstract
With system dynamics, we establish three-closed-loop supply chain distribution network system model which consists of supplier, manufacturer, two retailers, and products (parts) recycler. We proposed that recycler make reflect for the government policy by adjusting the recycling ratio and recycling delay. We use vensim software to simulate this model and investigate how the products (parts) recyclers behavior influences the loop supply chain distribution system. The result shows that (1) when recyclers respond positively to government policies, recycling will increase the proportion of recyclers. When recyclers respond negatively to government policy making, recycling will reduce the proportion of recyclers. (2) When the recovery percentage of recyclers improves, manufacturers, Retailer 1, and Retailer 2 quantity fluctuations will reduce and the bullwhip effect will diminish. (3) When the proportion of recycled parts recyclers is lowered, manufacturers, Retailer 1, and Retailer 2 inventory fluctuation will increase and the bullwhip effect will be enhanced. (4) When recyclers recycling product delays increased, volatility manufacturers order quantity will rise, but there is little change in the amount of fluctuation of orders of the two retailers. (5) When recycling parts recyclers delay increases, fluctuations in the supplier order quantity will rise, but there is little change in the amount of fluctuation of orders of the two retailers.
Highlights
Nowadays, closed-loop supply chain distribution network system has become a new research point since people pursue circular economy and social sustainable development
We proposed that recycler make reflect for the government policy by adjusting the recycling ratio and recycling delay
When recyclers respond negatively to government policy making, recycling will reduce the proportion of recyclers
Summary
Nowadays, closed-loop supply chain distribution network system has become a new research point since people pursue circular economy and social sustainable development. Based on the abovementioned articles, many scholars research the bullwhip effect problem in the closed-loop supply chain distribution network system. Based on the twostage supply chain [8], Wan and Li [9] increase recycling logistics, and they research the bullwhip effect in the closedloop supply chain distribution network system. Most articles are limited to accessing the single closed-loop supply chain distribution system; few scholars research the bullwhip effect in the supply chain distribution network system which consists of multiple manufacturers and multiple retailers. Based on the above research, we establish a three-closedloop supply chain distribution system dynamics model which consists of supplier, manufacturer, two retailers, and products (parts) recycler.
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