Optimal strategies of a dual-channel green supply chain with recycling under retailer promotional effort

Pal, Brojeswar; Sarkar, Amit

doi:10.1051/ro/2021016

Pal, Brojeswar ; Sarkar, Amit

RAIRO. Operations Research, Tome 55 (2021) no. 2, pp. 415-431

Résumé

Due to the hugely populated world, recycling of the used products has become the most significant perspective in e-commerce. The scientists have been exploring how increases the degree of recyclability and the green innovation level. This paper considers a supply chain with a manufacturer, a retailer, a supplier, and a collector. The manufacturer can increase or decrease the level of green innovation by changing the quality of raw materials. He sells them through his direct channel as well as the retailer’s traditional channel. The retailer enforces the strategy promotional effort for enlarging his market demand. After formulating the problem, the strategies in collector-led, supplier-led, collector–supplier Nash, and collector–supplier–retailer Nash game are studied under manufacturer Stackelberg games along with the centralized policy. The parameters’ sensitivity has been analyzed to the profits and decision variables and then draw significant managerial insights. The model declares the optimal strategies for each player as well as the chain. It is achieved that the higher level of green innovation and promotional effort always increases all the profit. The optimal pricing decisions be lowest under the Collector–Supplier Nash game.

MR

DOI : 10.1051/ro/2021016

Classification : 90B06
Keywords: Green supply chain management, green innovation, closed-loop dual channel, promotional effort, recycling

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     title = {Optimal strategies of a dual-channel green supply chain with recycling under retailer promotional effort},
     journal = {RAIRO. Operations Research},
     pages = {415--431},
     year = {2021},
     publisher = {EDP-Sciences},
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     number = {2},
     doi = {10.1051/ro/2021016},
     mrnumber = {4234140},
     language = {en},
     url = {https://www.numdam.org/articles/10.1051/ro/2021016/}
}

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Pal, Brojeswar; Sarkar, Amit. Optimal strategies of a dual-channel green supply chain with recycling under retailer promotional effort. RAIRO. Operations Research, Tome 55 (2021) no. 2, pp. 415-431. doi: 10.1051/ro/2021016

Bibliographie
Cité par

[1] M. Bhattacharyya and S. S. Sana, A mathematical model on eco-friendly manufacturing system under probabilistic demand. RAIRO:OR 53 (2018) 1899–1913. | MR | Numdam | DOI

[2] K. Cao, P. He and Z. Liu, Production and pricing decisions in a dual-channel supply chain under remanufacturing subsidy policy and carbon tax policy. J. Oper. Res. Soc. 71 (2019) 1199–1215. | DOI

[3] L. E. Cárdenas-Barrón and S. S. Sana, Multi-item EOQ inventory model in a two-layer supply chain while demand varies with promotional effort. Appl. Math. Model. 39 (2015) 6725–6737. | MR | DOI

[4] X. Chen, X. Wang and X. Jiang, The impact of power structure on the retail service supply chain with an O2O mixed channel. J. Oper. Res. Soc. 67 (2016) 294–301. | DOI

[5] W.-Y. K. Chiang, D. Chhajed and J. D. Hess, Direct marketing, indirect profits: a strategic analysis of dual-channel supply-chain design. Manage. Sci. 49 (2003) 1–20. | Zbl | DOI

[6] K. E. Clow and D. Baack, Integrated Advertising, Promotion, and Marketing Communications. Pearson Education Ltd, New York (2014).

[7] J. Gao, Z. Xiao, H. Wei and G. Zhou, Active or passive? Sustainable manufacturing in the direct-channel green supply chain: a perspective of two types of green product designs. Transp. Res. Part D: Transp. Environ. 65 (2018) 332–354. | DOI

[8] N. Georgantzis and C. Brunner, Promotional Effort. Springer Science+Business Media, New York (2016).

[9] P. D. Giovanni, A joint maximization incentive in closed-loop supply chains with competing retailers: the case of spent-battery recycling. Eur. J. Oper. Res. 268 (2018) 128–147. | MR | DOI

[10] B. C. Giri and S. K. Dey, Game theoretic analysis of a closed-loop supply chain with backup supplier under dual channel recycling. Comput. Ind. Eng. 129 (2019) 179–191. | DOI

[11] M. Grimmer and T. Bingham, Company environmental performance and consumer purchase intentions. J. Bus. Res. 66 (2013) 1945–1953. | DOI

[12] C. He and H. Zhou, A retailer promotion policy model in a manufacturer Stackelberg dual-channel green supply chain. Proc. CIRP 83 (2019) 722–727. | DOI

[13] W. Huang and J. M. Swaminathan, Introduction of a second channel: implications for pricing and profits. Eur. J. Oper. Res. 194 (2009) 258–279. | Zbl | DOI

[14] H. Jafari, S. R. Hejazi and M. Rasti-Barzoki, Sustainable development by waste recycling under a three-echelon supply chain: a game-theoretic approach. J. Cleaner Prod. 142 (2017) 2252–2261. | DOI

[15] H. Jafari, S. R. Hejazi and M. Rasti-Barzoki, Sustainable development by waste recycling under a three-echelon supply chain: a game-theoretic approach. J. Cleaner Prod. 142 (2019) 2252–2261. | DOI

[16] R. Karim and K. Nakade, Modelling a one retailer–one manufacturer supply chain system considering environmental sustainability and disruption. To appear in: Int. J. Syst. Sci. Oper. Logistics (2020). DOI: 10.1080/23302674.2020.1756006.

[17] B. Li, M. Zhu, Y. Jiang and Z. Li, Pricing policies of a competitive dual-channel green supply chain. J. Cleaner Prod. 112 (2016) 2029–2042. | DOI

[18] C. Mondal, B. C. Giri and T. Maiti, Pricing and greening strategies for a dual-channel closed-loop green supply chain. Flexible Serv. Manuf. J. 32 (2019) 724–761. | DOI

[19] D. Navinchandra, Steps Toward Environmentally Compatible Product and Process Design: A Case For Green Engineering. Carnegie Mellon University, Pennsylvania, United States (1990) 1–6.

[20] A. Ranjan and J. K. Jha, Pricing and coordination strategies of a dual-channel supply chain considering green quality and sales effort. J. Cleaner Prod. 218 (2019) 409–424. | DOI

[21] A. Roy, S. S. Sana and K. Chaudhuri, A joint venturing of single supplier and single retailer under variable price, promotional effort and service level. Pac. Sci. Rev. B: Humanities Soc. Sci. 1 (2015) 8–14.

[22] K. Salimifard and R. Raeesi, A green routing problem: optimising CO# emissions and costs from a bi-fuel vehicle fleet. Int. J. Adv. Oper. Manage. 6 (2014) 27–57.

[23] A. Sarkar and B. Pal, Competitive pricing strategies of multi channel supply chain under direct servicing by the manufacturer. RAIRO:OR 55 (2021) S1849–S1873. | MR | DOI

[24] R. Shankar, S. Bhattacharyya and A. Choudhary, A decision model for a strategic closed-loop supply chain to reclaim End-of-Life Vehicles. Int. J. Prod. Econ. 195 (2018) 273–286. | DOI

[25] C.-L. Shi, W. Geng and J.-B. Sheu, Integrating dual-channel closed-loop supply chains: forward, reverse or neither? To appear in: J. Oper. Res. Soc. (2020). DOI: 10.1080/01605682.2020.1745700.

[26] T. Stucki, M. Woerter, S. Arvanitis, M. Peneder and C. Rammer, How different policy instruments affect green product innovation: a differentiated perspective. Energy Policy 114 (2018) 245–261. | DOI

[27] L. Wang and Q. Song, Pricing policies for dual-channel supply chain with green investment and sales effort under uncertain demand. Math. Comput. Simul. 171 (2020) 79–93. | MR | DOI

[28] J. Wei, W. Chen and G. Liu, How manufacturer’s integration strategies affect closed-loop supply chain performance. To appear in: Int. J. Prod. Res. (2020). DOI: 10.1080/00207543.2020.1762016.

[29] C. Y. Wong, C. W. Y. Wong and S. Boon-Itt, Effects of green supply chain integration and green innovation on environmental and cost performance. Int. J. Prod. Res. 58 (2020) 4589–4609. | DOI

[30] X. Xie, J. Huo and H. Zou, Green process innovation, green product innovation, and corporate financial performance: a content analysis method. J. Bus. Res. 101 (2019) 697–706. | DOI

[31] L. Xu, C. Wang, Z. Miao and J. Chen, Governmental subsidy policies and supply chain decisions with carbon emission limit and consumer’s environmental awareness. RAIRO:OR 53 (2019) 1675–1689. | MR | Numdam | DOI

[32] H. Yang, L. Chu and H. Wan, Advertising and pricing policies in a two-Echelon supply chain with a capital-constrained retailer. RAIRO:OR 53 (2019) 1331–1342. | MR | Numdam | DOI

[33] A. Yenipazarli, To collaborate or not to collaborate: prompting upstream eco-efficient innovation in a supply chain. Eur. J. Oper. Res. 260 (2017) 571–587. | MR | DOI

[34] Y. Yuan, J. Yang, Y. Li and W. Li, Necessary conditions for coordination of dual-channel closed-loop supply chain. Technol. Forecasting Soc. Change 151 (2020). | DOI

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