Addressing environmental concerns in closed loop supply chain design and planning

Das, Kanchan; Posinasetti, Nageswara Rao

doi:10.1016/j.ijpe.2015.02.012

Cited by 95 publications

(52 citation statements)

References 37 publications

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“…These findings reiterate that while circular supply chains may offer obvious insights in terms of lower levels of virgin resources consumption and waste sent to landfill, advantages in terms of other environmental indicators (such as carbon emissions) might be carefully evaluated and optimised through an appropriate design of the supply chain (Das and Posinasetti, 2015).…”

Section: Different Country Location Of Production Facilities (Differementioning

confidence: 74%

Comparing linear and circular supply chains: A case study from the construction industry

Nasir

Genovese

Acquaye

et al. 2017

International Journal of Production Economics

362

192

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Section: Different Country Location Of Production Facilities (Differementioning

confidence: 74%

Comparing linear and circular supply chains: A case study from the construction industry

Nasir

Genovese

Acquaye

et al. 2017

International Journal of Production Economics

362

192

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“…A type of sustainable SC is the Closed Loop Supply Chain (CLSC), (Ramezani et al 2014;Govindan et al, 2014) designed to manage the recycling and recovery process of end-of-life products (Guide and Van Wassenhove, 2009;Das and Posinasetti, 2015). A CLSC generally involves a manufacturer taking care for the reverse logistics process.…”

Section: Introductionmentioning

confidence: 99%

Closed-loop supply chains: What reverse logistics factors influence performance?

Cannella

Bruccoleri

Framiñán

2016

International Journal of Production Economics

102

100

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“…Das and Posinasetti [4] addressed environmental concerns in CLSCs. They developed a new CLSC design that aims to reduce harmful emissions and spent energy.…”

Section: Closed-loop Supply Chainsmentioning

confidence: 99%

Evaluation of Maintenance and EOL Operation Performance of Sensor-Embedded Laptops

Dulman

Gupta

2018

Logistics

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Sensors are commonly employed to monitor products during their life cycles and to remotely and continuously track their usage patterns. Installing sensors into products can help generate useful data related to the conditions of products and their components, and this information can subsequently be used to inform EOL decision-making. As such, embedded sensors can enhance the performance of EOL product processing operations. The information collected by the sensors can also be used to estimate and predict product failures, thereby helping to improve maintenance operations. This paper describes a study in which system maintenance and EOL processes were combined and closed-loop supply chain systems were constructed to analyze the financial contribution that sensors can make to these procedures by using discrete event simulation to model and compare regular systems and sensor-embedded systems. The factors that had an impact on the performance measures, such as disassembly cost, maintenance cost, inspection cost, sales revenues, and profitability, were determined and a design of experiments study was carried out. The experiment results were compared, and pairwise t-tests were executed. The results reveal that sensor-embedded systems are significantly superior to regular systems in terms of the identified performance measures.

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Addressing environmental concerns in closed loop supply chain design and planning

Cited by 95 publications

References 37 publications

Comparing linear and circular supply chains: A case study from the construction industry

Comparing linear and circular supply chains: A case study from the construction industry

Closed-loop supply chains: What reverse logistics factors influence performance?

Evaluation of Maintenance and EOL Operation Performance of Sensor-Embedded Laptops

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