Supply chain collaboration to achieve toxics use reduction

Morose, Gregory; Shina, Sammy G.; Farrell, Robert

doi:10.1016/j.jclepro.2010.04.004

Cited by 16 publications

(7 citation statements)

References 5 publications

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“…Green design is focused on reducing the negative effects of products and processes (Foster et al 2011), and most proposed methods rely on life-cycle assessment methods and environmentally conscious design. Design methods and tools based on total quality management approaches such as Taguchi experimental methods (Jamshidi et al 2012), Quality Function Deployment (QFD) (Masui et al 2003;Büyüközkan & Berkol 2011;Wu & Ho 2015;Siu et al 2015), Design Of Experiments (DOE) (Morose et al 2011;Coronado et al 2015), Axiomatic Design (AD) (Kannan et al 2015), Design For Recycling (DFR) (Masanet & Horvath 2007;Ardente et al 2003) and Design For Disassembly (DFD) (Soh et al 2015;Ariffin et al 2015) are recognized as being used in problem solving in the green product design or green production process design area of GSCM.…”

Section: Gsc and Gscmmentioning

confidence: 99%

Reviewing the use of the theory of inventive problem solving (TRIZ) in green supply chain problems

Moussa

Rasovska

Dubois

et al. 2017

Journal of Cleaner Production

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The purpose of the paper is to review the practice of the theory of inventive problem solving (TRIZ) in Green Supply Chain (GSC) problems and to identify new research challenges focusing on the question: "To what extent is it necessary to evolve TRIZ tools, methods and theoretical grounding for addressing GSC inventive problems?" First, a review of the past contributions of TRIZ based methods to GSC problem resolution is presented. As the result of the papers review did not provide a comprehensive understanding of the limitations and areas of potential application of TRIZ in GSC, three experiments were conducted to complete the literature review, in order to provide a more comprehensive answer to the posed question and identify research challenges. The experiments addressing GSC problems were also conducted to explore to what extent the more mature metamethods of classical TRIZ, namely ARIZ 85 A, C and the related sub-methods, can be used as in GSM problems. The examples were chosen to explore types of GSC problems that were not yet addressed with TRIZ. The experiment results highlight limitations on the use of the TRIZ in GSC inventive problems, which were not mentioned in the GSC literature. Moreover it highlights the limitation of using the more mature meta-methods of TRIZ (ARIZ 85A and ARIZ 85C) when the conflict to overcome contains more than two evaluation parameters and one action parameter. Finally, research challenges to overcome the limitations and to improve the use of TRIZ in GSC inventive problems are stated. Among them, methods for quickly establishing the existence of classical TRIZ contradictions or for informing the problem solver when no TRIZ contradictions are present in a given inventive problem in GSC should be proposed. Such methods would permit determining whether ARIZ 85C could be used and avoid a long and fruitless search for a system of contradictions. Find alternatives to the algorithms proposed in the past to be able to establish the generalized contradictions of inventive problems. Make evolve meta-methods ARIZ 85C or substitute it with methods which can address the inventive problems that cannot be treated by ARIZ 85C.

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Section: Gsc and Gscmmentioning

confidence: 99%

Reviewing the use of the theory of inventive problem solving (TRIZ) in green supply chain problems

Moussa

Rasovska

Dubois

et al. 2017

Journal of Cleaner Production

View full text Add to dashboard Cite

show abstract

“…Current management measures regarding the use of hazardous substances in the electronics industry require suppliers to implement and acquire the IECQ QC 080000 HSPM system certification for managing hazardous substances in products and processes. A study conducted by Morose, Shina, and Farrell in 2011 [76] revealed the global initiative of the electronics industry to utilize lead-free materials in the production of printed circuit boards, particularly in those intended for use in electrical and electronic equipment. Considering the significant weights of the criteria, managers should select the best and appropriate suppliers through the VIKOR method in the proposed MCDM model.…”

Section: Finding the Influential Weight Of Criteria Using The Danpmentioning

confidence: 99%

Developing a Green Supplier Selection Model by Using the DANP with VIKOR

2015

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This study proposes a novel hybrid multiple-criteria decision-making (MCDM) method to evaluate green suppliers in an electronics company. Seventeen criteria in two dimensions concerning environmental and management systems were identified under the Code of Conduct of the Electronic Industry Citizenship Coalition (EICC). Following this, the Decision-Making Trial and Evaluation Laboratory (DEMATEL) used the Analytic Network Process (ANP) method (known as DANP) to determine both the importance of evaluation criteria in selecting suppliers and the causal relationships between them. Finally, the VlseKriterijumska Optimizacija I Kompromisno Resenje (VIKOR) method was used to evaluate the environmental performances of suppliers and to obtain a solution under each evaluation criterion. An illustrative example of an electronics company was presented to demonstrate how to select green suppliers.

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“…Thus, an important issue which should be concerned is how the reworking action affects the amount of output products in a manufacturing system. In many cases, defective products still have substantial value, e.g., caused by expensive input materials, and thus there is an incentive to rework those products to the 'as new' condition (Buscher and Lindner, 2007;Morose et al, 2011). In several applications, the reworking action is implemented by the same stations for repairing products.…”

Section: Rework and Scrap In Manufacturing Systemsmentioning

confidence: 99%

“…Due to a growing environmental concern and economic incentives, rework for defective products is therefore having received increasing attention for eliminating unnecessary scrap (Morose et al, 2011). In addition, manufacturers always tend to create manufacturing systems with efficiency and flexibility, which also implies with less waste and less cost.…”

Section: Introductionmentioning

confidence: 99%