Competitive sustainable processes and pricing decisions in omnichannel closed-up supply chains under different channel power structures

Abstract

In recent years, omnichannel retailing and remanufacturing issues have rapidly emerged in the closed-loop supply chain (CLSC). The omnichannel is a combination of online and in-store retailing, and it affects supply chain relationships and channel power structures by changing value creation processes. It allows consumers a hybrid shopping experience where they can order products online and pick them up in the store or test in-store and buy online (TSBO). Despite this practice, no studies exist on CLSC considering omnichannel retailing under different channel power structures. We investigate the TSBO retailing strategy and its impact on CLSC profit considering price competition between manufacturer and remanufacturer under Manufacturer Stackelberg (MS), Retailer Stackelberg (RS), Vertical Nash (VN), and cooperation (CO) models game settings. In this paper, mathematical models are developed to drive the optimal solution. A two-part tariff coordination mechanism (i.e., IS model) is also used to integrate all supply chain members. The proposed models examine the environmental and social welfare benefits of adopting green innovation products and remanufacturing processes in omnichannel retailing. A numerical study is carried out to illustrate the proposed models' application. The results show that the IS model can synchronize the economic, environmental, and social aspects leading to significant increases in performance. Total supply chain profit under the CO model is the highest. The manufacturer and remanufacturer generate higher profits in the MS model, whereas the retailer makes higher profits in the RS and VN models. When a manufacturer only wants to increase profit with green processes and is not concerned about omnichannel processes, more resources must be allocated for green innovation.