Free Access
Issue |
RAIRO-Oper. Res.
Volume 55, 2021
Regular articles published in advance of the transition of the journal to Subscribe to Open (S2O). Free supplement sponsored by the Fonds National pour la Science Ouverte
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Page(s) | S503 - S521 | |
DOI | https://doi.org/10.1051/ro/2019069 | |
Published online | 02 March 2021 |
- B.A. Alkhayyal and S.M. Gupta, The impact of carbon emissions policies on reverse supply chain network design. Doğuşs Üniversitesi Dergisi 19 (2018) 99–111. [Google Scholar]
- S.H. Anvar, A. Sadegheih and M.A.V. Zad, Carbon emission management for greening supply chain at the operation level. Environ. Eng. Manage. J. (EEMJ) 17 (2018) 1337–1347. [Google Scholar]
- A. Arvesen and E. Hertwich, Assessing the life cycle environmental impacts of wind power: a review of present knowledge and research needs. Renew. Sustainable Energy Rev. 16 (2012) 5994–6006. Assessing the life cycle environmental impacts of wind power: A review of present knowledge and research needs. [Google Scholar]
- AU, Waste Management of End-of-service Wind Turbines. Available from: https://projekter.aau.dk/projekter/files/213319772/Waste_management_of_end_of_service_wind_turbines.pdf (2015) [cited March 15, 2016]. [Google Scholar]
- S. Benjaafar, Y. Li and M. Daskin, Carbon footprint and the management of supply chains: insights from simple models. IEEE Trans. Automot. Sci. Eng. 10 (2013) 99–116. [Google Scholar]
- J. Bloemhof-Ruwaarda, A. Chaaba and X. Binga, Global reverse supply chain redesign for household plastic waste under the emission trading scheme. J. Cleaner Prod. 103 (2015) 28–39. [Google Scholar]
- E. Bottani and G. Casella, Minimization of the environmental emissions of closed-loop supply chains: A case study of returnable transport assets management, Sustainability 10 (2018) 1–20. [Google Scholar]
- X. Chen and X. Wang, Effects of carbon emission reduction policies on transportation mode selections with stochastic demand. Transp. Res. Part E: Logistics Transp. Rev. 90 (2016) 196–205. [Google Scholar]
- A. Choudhary, S. Sarkar, S. Settur and M. Tiwa, A carbon market sensitive optimization model for integrated forward–reverse logistics. Int. J. Prod. Econ. 164 (2015) 433–444. [Google Scholar]
- S. Cinar and M. Yildirim, Reverse logistic network design for end-of-life wind turbines. In : Optimization and Dynamics with Their Applications, edited by M. A içcinde. Springer, Singapore. (2017). [Google Scholar]
- W.S. de Oliveira and A. Fernandes, Cost analysis of material composition of the wind turbine blades for Wobben Windpower/ENERCON GmbH Model E-82. Cyber J. : Multi. J. Sci. Technol. J. Select. Areas Renew. Energy (JRSE) (2012) 1–7. [Google Scholar]
- A. Diabat, and M. Al-Salem, An integrated supply chain problem with environmental considerations. In : Advances in Sustainable Manufacturing. Springer, Berlin, Heidelberg (2015) 330–338. [Google Scholar]
- S. Du, L. Hu and M. Song, Production optimization considering environmental performance and preference in the cap-and-trade system. J. Cleaner Prod. 112 (2016) 1600–1607. [Google Scholar]
- ECTA, Guidelines for Measuring and Managing CO2 Emission From Freight Transport Operations. Available from: https://www.ecta.com/resources/Documents/Best%20Practices%20Guidelines/guideline_for_measuring_and_managing_co2.pdf (2011) [cited March 12, 2018]. [Google Scholar]
- B. Eleonora and G. Casella, Minimization of the environmental emissions of closed-loop supply chains: a case study of returnable transport assets management. Sustainability 10 (2018) 329. [Google Scholar]
- X. Fang, Y. Du and Y. Qiu, Reducing carbon emissions in a closed-loop production routing problem with simultaneous pickups and deliveries under carbon cap-and-trade. Sustainability 9 (2017) 2198. [Google Scholar]
- R. Geyer and T. Jackson, Supply loops and their constraints: the industrial ecology of recycling and reuse. California Manage. Rev. 46 (2004) 55–73. [Google Scholar]
- C. Ghenai, Life Cycle Analysis of Wind Turbine. Ocean and Mechanical Engineering Department, Florida Atlantic University. Available from: http://cdn.intechopen.com/pdfs/29930.pdf (2012) [cited April 24, 2018]. [Google Scholar]
- A. Ghosh, S. Sarmah and J. Jha, Collaborative model for a two-echelon supply chain with uncertain demand under carbon tax policy. Sādhanā 43 (2018) 144. [Google Scholar]
- Goldstandard, Available from: https://www.goldstandard.org/blog-item/carbon-pricing-what-carbon-credit-worth (2018). [Google Scholar]
- K. Haapala and P. Prempreeda, Comparative life cycle assessment of 2.0MW wind turbines. Int. J. Sustainable Manuf. 3 (2014) 170–185. [Google Scholar]
- Helpsavenature, Available from: https://helpsavenature.com/carbon-credits-price (2018). [cited May 14, 2017]. [Google Scholar]
- W. Hulshorst, Repowering and Used Wind Turbines. Leonardo Energy. Available from: http://www.leonardo-energy.org/sites/leonardo-energy/files/root/pdf/2008/repowering-wind.pdf (2008) [cited June 20, 2016]. [Google Scholar]
- J. Humberto Ablanedo-Rosas, P. Fu and Y. Peng, A multiperiod supply chain network design considering carbon emissions. Math. Prob. Eng. 2016 (2016) 1–11. [Google Scholar]
- M. Jaber, C. Glock and A. El Saadany, Supply chain coordination with emissions reduction incentives. Int. J. Prod. Res. 51 (2013) 69–82. [Google Scholar]
- B.-R. Jacqueline, A. Chaa and X. Bing, Global reverse supply chain redesign for household plastic waste under the emission trading scheme. J. Cleaner Prod. 103 (2015) 28–39. [Google Scholar]
- W. Jiang and X. Chen, Optimal strategies for manufacturer with strategic customer behavior under carbon emissions-sensitive random demand. Ind. Manage. Data Syst. 116 (2016) 759–776. [Google Scholar]
- H. Krikke, A. van Harten and P. Schuur, Business case Océe: reverse logistics network re-design for copiers. OR Spektrum 21 (1999) 381–409. [Google Scholar]
- Longitude Store.com, The Haversine Formula. Available from: http://www.longitudestore.com/haversine-formula.html (2014) [cited June 10, 2018]. [Google Scholar]
- Z. Luo, X. Chen and X. Wang, The role of co-opetition in low carbon manufacturing. Eur. J. Opera. Res. 253 (2016) 392–403. [Google Scholar]
- A. Partridge, Full Circle: Reverse Logistics Keeps Products Green to the End. Available from: https://www.inboundlogistics.com/cms/article/full-circle-reverse-logistics-keeps-products-green-to-the-end/ (2011) [cited September 17, 2018]. [Google Scholar]
- W. Post, Energy from wind turbines actually less than estimated? The Energy Collective. Available from: http://www.theenergycollective.com/willem-post/169521/wind-turbine-energy-capacity-less-estimated (2013) [cited September 11, 2018]. [Google Scholar]
- A. Purohit, R. Shankar and P. Kumar, Non-stationary stochastic inventory lot-sizing with emission and service level constraints in a carbon cap-and-trade system. J. Cleaner Prod. 113 (2016) 654–661. [Google Scholar]
- Renew Energy Maintenance, Available from: http://www.renewenergy.com/ (2012) [cited March 17, 2016]. [Google Scholar]
- Repowering Solutions, Remanufactured wind turbines – New opportunities for the wind industry. Available from: http: //www.repoweringsolutions.com/english/sales_brochure/Brochure_refurbished_wind_turbines.pdf (2011) [cited March 13, 2017]. [Google Scholar]
- A. Rezaee, F. Dehghanian and B. Fahimnia, Green supply chain network design with stochastic demand and carbon price. Ann. Oper. Res. 252 (2017) 463–485. [Google Scholar]
- Sandia National Laboratories, Cost study for large wind turbine blades: WindPACT blade system design studies. Sand Report. Available from: http://windpower.sandia.gov/other/031428.pdf (2003) [cited March 17, 2017]. [Google Scholar]
- C. Rydh, M. Jonsson and P. Lindahl, Replacement of Old Wind Turbines Assessed From Energy, Environmental and Economic Perspectives. Available from: http://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.524.8291andrep=rep1andtype= pdf (2004) [cited September 15, 2018]. [Google Scholar]
- SEA, Carbon Trading-Literature Overview. Available from: http://www.seo.nl/uploads/media/2010-65__Carbon_Trading.pdf (2010) [cited July 17, 2018]. [Google Scholar]
- SEO, Carbon Trading-Literature Review. Available from: http://www.seo.nl/uploads/media/2010-65__Carbon_Trading.pdf (2010) [cited June 10, 2018]. [Google Scholar]
- S. Skrainka, Analysis of the environmental impact on remanufacturing wind turbines. Master’s thesis, Rochester Institute of Technology (2012). [Google Scholar]
- E. Smoucha, K. Fitzpatrick, S. Buckingham and O. Knox, Life cycle analysis of the embodied carbon emissions from 14 wind turbines with rated powers between 50Kw and 3.4 Mw. J. Fundam. Renew. Energy Appl. 6 (2016) 211. [Google Scholar]
- Z. Xu, A. Elomri, S. Pokharel and Q. Zhang, Global reverse supply chain design for solid waste recycling under uncertainties and carbon emission constraint. Waste Manage. 64 (2017) 358–370. [Google Scholar]
- H. Yu and W. Solvang, A general reverse logistics network design model for product reuse and recycling with environmental considerations. Int. J. Adv. Manuf. Technol. 87 (2016) 2693–2711. [Google Scholar]
- B. Zhu and Y. Wei, Carbon price forecasting with a novel hybrid ARIMA and least squares support vector machines methodology. Omega 41 (2013) 517–524. [Google Scholar]
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