Abstract
This study investigated how greenhouse managers should invest in preservation and green technologies and introduce trade credit to increase their profits. We propose a supply chain inventory model with controllable deterioration and emission rates under payment schemes for shortage and surplus, where demand depends on price and trade credit. Carbon emissions and deterioration are factors affecting global warming, and many greenhouse managers have focused on reducing carbon emissions. Carbon caps and tax-based incentives have been used in many greenhouses to achieve such reduction. Because of the importance of reducing carbon emissions for developing a green supply chain, various studies have investigated how firms deal with carbon emission constraints. In this continuation, we have used green technology to curb the excessive emissions from the environment or make it clean from CO2. In a seller–buyer relationship, the seller can offer a trade credit period to the buyer to manage stock and stimulate demand. Deterioration may become a challenge for most firms as they are under time constraints control, and preservation technology could help. This study proposes three novel inventory strategies for a sustainable supply chain (full backorder, partial backorder, and no backorder), linking all these important issues. The solution optimizes total annual profit for inventory shortage or surplus. We conducted a numerical study with three examples to evaluate the model’s authenticity and effectiveness and demonstrate the solution technique. The deterioration and emission rates can be included in a trade credit policy to increase greenhouse profits. The results suggest that greenhouse managers could apply the proposed model to manage real-world situations.
Highlights
Licensee MDPI, Basel, Switzerland.The sustainable supply chain is becoming an emerging concern in today’s competitive business
No studies have provided a model to explore the effects of preservation technology (PRT) and green technology (GRT) investment on deterioration and emissions rates when demand depends on trade credit and price with default risk under various backorder cases
To investigate the simultaneous investment in PRT and GRT for credit-linked pricedependent demand; To reveal how retailers could invest in PRT and GRT to optimize deterioration and carbon emission rates; Explore the effects of backorder cases on the retail industry under various pricing strategies
Summary
Many researchers have discussed sustainable supply chain inventory (SSCI) models for product deterioration with credit policy strategies [5,6,7], but few studies have considered trade credit risk policy under environmental disputes. Johari et al [9] developed an inventory model highlighting the real-world value of determining the credit period and selling price based on demand. No studies have provided a model to explore the effects of PRT and GRT investment on deterioration and emissions rates when demand depends on trade credit and price with default risk under various backorder cases. To investigate the simultaneous investment in PRT and GRT for credit-linked pricedependent demand; To reveal how retailers could invest in PRT and GRT to optimize deterioration and carbon emission rates; Explore the effects of backorder cases on the retail industry under various pricing strategies. The remainder of this paper’s organization is as follows: Section 2 reveals a research gap based on a review of the literature; Section 3 details the model formulation; Section 4 provides several numerical examples, explores the results, reports a sensitivity analysis, and lists managerial implications; and Section 5 concludes the study with some limitations and suggestions for future work
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