Abstract
The increase in carbon emissions is considered one of the major causes of global warming and climate change. To reduce the potential environmental and economic threat from such greenhouse gas emissions, governments must formulate policies related to carbon emissions. Most economists favor the carbon tax as an approach to reduce greenhouse gas emissions. This market-based approach is expected to inevitably affect enterprises’ operating activities such as production, inventory, and equipment investment. Therefore, in this study, we investigate a production inventory model for deteriorating items under a carbon tax policy and collaborative preservation technology investment from the perspective of supply chain integration. Our main purpose is to determine the optimal production, delivery, ordering, and investment policies for the buyer and vendor that maximize the joint total profit per unit time in consideration of the carbon tax policy. We present several numerical examples to demonstrate the solution procedures, and we conduct sensitivity analyses of the optimal solutions with respect to major parameters for identifying several managerial implications that provide a useful decision tool for the relevant managers. We hope that the study results assist government organizations in selecting a more appropriate carbon emissions policy for the carbon reduction trend.
Highlights
The rapid development of global industrialization has negatively affected the environment and ecology because most companies are concerned only about economic growth, thereby exposing humans and animals to various threats such as global warming, toxic environments, ozone destruction, and depletion of natural resources
We verify the concavity through numerical analysis and develop an algorithm to obtain the optimal solutions for the supply chain system
We investigate an integrated production inventory model for deteriorating items under carbon tax policy and collaborative preservation technology investment
Summary
The rapid development of global industrialization has negatively affected the environment and ecology because most companies are concerned only about economic growth, thereby exposing humans and animals to various threats such as global warming, toxic environments, ozone destruction, and depletion of natural resources. The preceding studies on integrated production inventory models have explored only the production, transport, and ordering strategies; none considered the impact of either carbon emissions or preservation technology for deteriorating items. Dye and Hsieh [41] considered the effect of preservation technology cost investment on preservation equipment for reducing the deterioration rate under two-level trade credit He and Huang [42] first studied both preservation technology investment and pricing strategies and developed an inventory model for deteriorating seasonal products. To contribute to the sustainable development of the supply chain, this study examines the optimal production, order, and preservation technology investment policies for an integrated supply chain system that includes (1) deteriorating items with a controllable deterioration rate, (2) collaborative preservation technology investment, and (3) regulation through a carbon tax. We present several numerical examples to demonstrate the solution procedures and conduct sensitivity analyses of the optimal solutions with respect to major parameters to identify several managerial implications that provide a useful decision tool for the relevant managers
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