Remanufacturing Strategy Choice of a Closed-Loop Supply Chain Network Considering Carbon Emission Trading, Green Innovation, and Green Consumers

Zhou, Yan; Lin, Xin-Tong; Fan, Zhi‐Ping; Wong, K. H.

doi:10.3390/ijerph19116782

Cited by 14 publications

(9 citation statements)

References 47 publications

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“…Literature reviews (LRs) (8) [1,3,5,[9][10][11][12][13] Deterministic optimization (DO) models ( 14) [7,[14][15][16][17][18][19][20][21][22][23][24][25][26] Uncertain optimization (UO) models (20) [2,8,[27][28][29][30][31][32][33][34][35][36][37][38][39][40][41][42][43][44] Game-theoretic (GT) models ( 12) [6,[45][46][47][48][49][50][51]…”

Section: Problem Domain Referencesmentioning

confidence: 99%

“…Zhou et al [24] developed an equilibrium model for CLSC networks under various remanufacturing approaches while incorporating green factors and allowing decisionmakers to choose between in-house and authorized remanufacturing approaches with factors like carbon trading and consumer preferences. Kharaji Manouchehrabadi and Yaghoubi [49] investigated a solar cell supply chain with a closed loop that would recover old solar panels and cause less damage to the environment.…”

Section: Game-theoretic Modelsmentioning

confidence: 99%

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Closing the Gap: A Comprehensive Review of the Literature on Closed-Loop Supply Chains

Zengin,

Amin,

Zhang

2024

Logistics

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Background: Sustainable closed-loop supply chains have emerged as viable answers to supply chain problems. They can handle environmental damages (e.g., waste) and related social impacts. Closed-loop supply chains (CLSCs) are forward and reverse supply chain networks that have gained popularity in recent years. Recovery options such as reusing, remanufacturing and recycling can be considered in CLSCs. Methods: This paper provides a comprehensive evaluation of CLSC journal papers published between 2020 and the present. This study examines and synthesizes 54 papers from major publications in this area, covering a wide range of themes and approaches. This paper aims to respond to the following key questions: (i) What are the current trends and challenges in CLSC research, and how have they evolved since previous literature review papers? (ii) What key variables and objectives have been studied in recent CLSC research, and how have they been operationalized? (iii) What are the gaps and limitations in current CLSC research? To our knowledge, other literature review papers in this field have covered older papers, and recent papers have been ignored in them. Another research contribution of this paper is the taxonomy of it. Results: This review article highlights some developing themes and research gaps in the CLSC literature and makes recommendations for further study. Conclusions: This paper provides a comprehensive review of papers on closed-loop supply chain networks.

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Section: Problem Domain Referencesmentioning

confidence: 99%

Section: Game-theoretic Modelsmentioning

confidence: 99%

Closing the Gap: A Comprehensive Review of the Literature on Closed-Loop Supply Chains

Zengin,

Amin,

Zhang

2024

Logistics

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“…While anthropogenic stock of these metals in 2020 accounted for over 70 % of total geological and anthropogenic resource, some geological metals like In (88 %), Cd (87 %), Hg (84 %), Sb (82 %), Sn (76 %), Au (74 %), and Pb (73 %), are rapidly depleting. But China demonstrated a more severe situation than global circumstance, in particular on Co, Pb, Ni, and Al (Eheliyagoda et al, 2022;Zhou et al, 2022). Furthermore, trade plays an important function in balancing the regional landscape.…”

Section: Theory Of Anthropogenic Circularitymentioning

confidence: 99%

Win-Win: Anthropogenic circularity for metal criticality and carbon neutrality

Zeng

2022

Front. Environ. Sci. Eng.

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Resource depletion and environmental degradation have fueled a burgeoning discipline of anthropogenic circularity since the 2010s. It generally consists of waste reuse, remanufacturing, recycling, and recovery. Circular economy and “zero-waste” cities are sweeping the globe in their current practices to address the world’s grand concerns linked to resources, the environment, and industry. Meanwhile, metal criticality and carbon neutrality, which have become increasingly popular in recent years, denote the material’s feature and state, respectively. The goal of this article is to determine how circularity, criticality, and neutrality are related. Upscale anthropogenic circularity has the potential to expand the metal supply and, as a result, reduce metal criticality. China barely accomplished 15 % of its potential emission reduction by recycling iron, copper, and aluminum. Anthropogenic circularity has a lot of room to achieve a win-win objective, which is to reduce metal criticality while also achieving carbon neutrality in a near closed-loop cycle. Major barriers or challenges for conducting anthropogenic circularity are deriving from the inadequacy of life-cycle insight governance and the emergence of anthropogenic circularity discipline. Material flow analysis and life cycle assessment are the central methodologies to identify the hidden problems. Mineral processing and smelting, as well as end-of-life management, are indicated as critical priority areas for enhancing anthropogenic circularity.

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“…Wang et al [ 35 ] investigate how legal constraints on the recycling rate of used products and carbon trading mechanisms affect the profits and other decisions of CLSC members. Zhou et al [ 36 ] introduce green factors into the existing CLSC network and study the impact of carbon trading, green innovation efforts, and green consumers on the choice of remanufacturing strategies, and found that the choice of remanufacturing strategy was related to the carbon trading price.…”

Section: Literature Reviewmentioning

confidence: 99%

Optimal Decisions in a Multi-Party Closed-Loop Supply Chain Considering Green Marketing and Carbon Tax Policy

Lyu

Chen

Wang

2022

IJERPH

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Global warming and e-waste pollution are two major environmental pollution issues that have attracted widespread attention. The government has adopted various measures to reduce carbon emissions from businesses and to make manufacturers responsible for recycling e-waste. In the face of external pressures, more and more companies are implementing sustainable closed-loop supply chain (CLSC) management to reduce environmental pollution and achieve sustainable development. Therefore, it is essential to study the operational decisions of CLSC enterprises. This paper considers a sustainable CLSC consisting of two competing manufacturers and a dominant retailer. The government imposes a carbon tax on the retailer, and two manufacturers collect used products directly from their customers. We separately examine whether implementing green marketing by the retailer and the collaboration between the two manufacturers can improve their profits. By building decentralized CLSC mathematical models and applying game theory methods, we obtain that green marketing can increase profits for all CLSC members and improve return rates. The collaboration may yield higher total profits for two manufacturers than a decentralized solution, while the retailer’s profits may be lost under certain conditions. Finally, we perform several numerical analyses to find the relationship between unit carbon emission tax and social welfare and gain some managerial insights. The study gives key factors that CLSC companies should consider when making decisions to help them achieve sustainability and provides recommendations for the government to set a reasonable unit carbon tax.

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Remanufacturing Strategy Choice of a Closed-Loop Supply Chain Network Considering Carbon Emission Trading, Green Innovation, and Green Consumers

Cited by 14 publications

References 47 publications

Closing the Gap: A Comprehensive Review of the Literature on Closed-Loop Supply Chains

Closing the Gap: A Comprehensive Review of the Literature on Closed-Loop Supply Chains

Win-Win: Anthropogenic circularity for metal criticality and carbon neutrality

Optimal Decisions in a Multi-Party Closed-Loop Supply Chain Considering Green Marketing and Carbon Tax Policy

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