Multicriteria Design of Plastic Recycling Based on Quality Information and Environmental Impacts
Summary In this study, we develop a framework for the multicriteria design of plastic recycling based on quality information and environmental impacts for the purpose of supporting collaborative decision making among consumers, municipalities, and recyclers. The subject of this article is the mechan...
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| Vydáno v: | Journal of industrial ecology Ročník 15; číslo 2; s. 228 - 244 |
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| Hlavní autoři: | , |
| Médium: | Journal Article |
| Jazyk: | angličtina |
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Malden, USA
Blackwell Publishing Inc
01.04.2011
Wiley Subscription Services, Inc |
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| ISSN: | 1088-1980, 1530-9290 |
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| Abstract | Summary
In this study, we develop a framework for the multicriteria design of plastic recycling based on quality information and environmental impacts for the purpose of supporting collaborative decision making among consumers, municipalities, and recyclers. The subject of this article is the mechanical recycling of postconsumer polyethylene terephthalate (PET) bottles. We present a “quality conversion matrix,” which links the quality of recycled PET resin to the quality of waste PET bottles and operational conditions, described in terms of the functions of modules constituting the entire recycling process. We estimate the quality of recycled PET resin and simulate the applicability to the intended products as the primary criterion by confirming whether the estimated quality of recycled resin satisfies the quality demands of PET resin users. The amounts of carbon dioxide (CO2) emissions and fossil resource consumption are also estimated as the secondary criteria. An approach to collaborative decision making utilizing mixed‐integer linear programming (MILP) and Monte Carlo simulation is proposed on the premise of different objectives of various stakeholders, where all the feasible optimal solutions for achieving the quality demands are obtained. The quality requirements of waste bottles, along with the CO2 emissions and fossil resource consumption estimated for each solution, contribute to the collaborative multicriteria design of plastic recycling. |
|---|---|
| AbstractList | Summary
In this study, we develop a framework for the multicriteria design of plastic recycling based on quality information and environmental impacts for the purpose of supporting collaborative decision making among consumers, municipalities, and recyclers. The subject of this article is the mechanical recycling of postconsumer polyethylene terephthalate (PET) bottles. We present a “quality conversion matrix,” which links the quality of recycled PET resin to the quality of waste PET bottles and operational conditions, described in terms of the functions of modules constituting the entire recycling process. We estimate the quality of recycled PET resin and simulate the applicability to the intended products as the primary criterion by confirming whether the estimated quality of recycled resin satisfies the quality demands of PET resin users. The amounts of carbon dioxide (CO2) emissions and fossil resource consumption are also estimated as the secondary criteria. An approach to collaborative decision making utilizing mixed‐integer linear programming (MILP) and Monte Carlo simulation is proposed on the premise of different objectives of various stakeholders, where all the feasible optimal solutions for achieving the quality demands are obtained. The quality requirements of waste bottles, along with the CO2 emissions and fossil resource consumption estimated for each solution, contribute to the collaborative multicriteria design of plastic recycling. In this study, we develop a framework for the multicriteria design of plastic recycling based on quality information and environmental impacts for the purpose of supporting collaborative decision making among consumers, municipalities, and recyclers. The subject of this article is the mechanical recycling of postconsumer polyethylene terephthalate (PET) bottles. We present a quality conversion matrix, which links the quality of recycled PET resin to the quality of waste PET bottles and operational conditions, described in terms of the functions of modules constituting the entire recycling process. We estimate the quality of recycled PET resin and simulate the applicability to the intended products as the primary criterion by confirming whether the estimated quality of recycled resin satisfies the quality demands of PET resin users. The amounts of carbon dioxide (CO2) emissions and fossil resource consumption are also estimated as the secondary criteria. An approach to collaborative decision making utilizing mixed-integer linear programming (MILP) and Monte Carlo simulation is proposed on the premise of different objectives of various stakeholders, where all the feasible optimal solutions for achieving the quality demands are obtained. The quality requirements of waste bottles, along with the CO2 emissions and fossil resource consumption estimated for each solution, contribute to the collaborative multicriteria design of plastic recycling. |
| Author | Hirao, Masahiko Nakatani, Jun |
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| Cites_doi | 10.1080/00207549508904802 10.1162/108819800569717 10.1016/j.cej.2003.08.019 10.1007/s11367-010-0189-y 10.3370/lca.4.67 10.1007/BF02978506 10.3985/jswme.12.229 10.1162/108819803766729186 10.1080/00207540801927183 10.1007/PL00013347 10.1162/jiec.1997.1.4.19 10.1287/mnsc.21.4.392 10.1287/opre.47.2.221 10.1080/03052150802294573 10.1016/j.energy.2006.07.035 10.1016/j.wasman.2007.02.015 10.1016/S0921-3449(98)00039-1 10.1016/j.ejor.2006.01.031 10.3370/lca.4.78 10.1007/s00291-003-0119-5 10.1016/0377-2217(94)00211-8 10.1205/psep.04142 10.1016/j.resconrec.2004.12.002 10.1016/S0278-6125(06)80032-4 10.1016/j.compchemeng.2009.05.017 10.1007/BF02978432 |
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| References | Sodhi, M. S. and B. Reimer. 2001. Models for recycling electronics end-of-life products. OR Spectrum 23: 97-115. Nakatani, J., M. Fujii, Y. Moriguchi, and M. Hirao. 2010. Life-cycle assessment of domestic and transboundary recycling of post-consumer PET bottles. International Journal of Life Cycle Assessment 15(6): 590-597. Lu, Q., J. A. S. Williams, M. Posner, W. Bonawi-tan, and X. Qu. 2006. Model-based analysis of capacity and service fees for electronics recyclers. Journal of Manufacturing Systems 25 (1): 45-57. Tang, J., Y. Liu, R. Y. K. Fung, and X. Luo. 2008. Industrial waste recycling strategies optimization problem: mixed integer programming model and heuristics. Engineering Optimization 40 (12): 1085-1100. Isaacs, J. A. and S. M. Gupta. 1997. Economic consequences of increasing polymer content for the U.S. automobile recycling infrastructure. Journal of Industrial Ecology 1(4): 19-33. Boon, J. E., J. A. Isaacs, and S. M. Gupta. 2000. Economic impact of aluminum-intensive vehicles on the U.S. automotive recycling infrastructure. Journal of Industrial Ecology 4(2): 117-134. Fujii, M., S. Hashimoto, K. Nansai, S. Murakami, R. Inaba, M. Osako, and Y. Moriguchi. 2008. Material recycle no LCI bunseki shuhou no seiri to hyouka jirei. [Evaluation method of mechanical recycling and case studies based on life cycle inventory analysis. Journal of Life Cycle Assessment, Japan 4(1): 78-88. Hara, T., H. Shima, Y. Yoshida, and R. Matsuhashi. 2007. Model analysis of an inter-industrial and inter-regional waste recycling system in Japan. Energy 32: 609-618. Finnveden, G. and T. Ekvall. 1998. Life-cycle assessment as a decision-support tool: The case of recycling versus incineration of paper. Resources, Conservation and Recycling 24(3-4): 235-256. Yasuda, Y. 2001. PET bottle no recycle system ni-kansuru hyouka to seisaku-bunseki. 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Schroter. 2003. Integrated planning of acquisition, disassembly and bulk recycling: a case study on electronic scrap recovery. OR Spectrum 25: 413-442. Ekvall, T., G. Assefa, A. Bjorklund, O. Eriksson, and G. Finnveden. 2007. What life-cycle assessment does and does not do in assessments of waste management. Waste Management 27(8): 989-996. Arena, U., M. L. Mastellone, and F. Perugini. 2003b. Life cycle assessment of a plastic packaging recycling system. International Journal of Life Cycle Assessment 8(2): 92-98. 2010; 34 2009; 47 2010; 15 2000; 4 1995; 33 1999; 47 2008 2007 1997; 1 2000; 2 2003 2008; 4 2003a; 96 2007; 32 2001; 23 2005; 44 2000; 118‐C 1998; 24 2004; 769 1974; 21 2006; 84 2001 2003; 7 2007; 177 2003; 8 2006; 25 2003; 25 2001; 3 2003b; 8 2008; 40 2001; 12 1996; 88 2007; 27 10.1111/j.1530-9290.2010.00316.x-BIB15|cit19 Stuart (10.1111/j.1530-9290.2010.00316.x-BIB29|cit28) 1999; 47 Hoshino (10.1111/j.1530-9290.2010.00316.x-BIB34|cit16) 1995; 33 Matsuda (10.1111/j.1530-9290.2010.00316.x-BIB16|cit22) 2008; 4 Williams (10.1111/j.1530-9290.2010.00316.x-BIB36|cit35) 2007; 177 Liberopoulos (10.1111/j.1530-9290.2010.00316.x-BIB35|cit20) 2010; 34 Ekvall (10.1111/j.1530-9290.2010.00316.x-BIB9|cit10) 2007; 27 Bloemhof-Ruwaard (10.1111/j.1530-9290.2010.00316.x-BIB25|cit5) 1996; 88 Noda (10.1111/j.1530-9290.2010.00316.x-BIB18|cit24) 2001; 3 Wada (10.1111/j.1530-9290.2010.00316.x-BIB23|cit34) 2004; 769 Fujii (10.1111/j.1530-9290.2010.00316.x-BIB11|cit12) 2008; 4 Lu (10.1111/j.1530-9290.2010.00316.x-BIB26|cit21) 2006; 25 Council for PET Bottle Recycling, Japan (10.1111/j.1530-9290.2010.00316.x-BIB7|cit9) 2007 Askham-Nyland (10.1111/j.1530-9290.2010.00316.x-BIB3|cit3) 2003; 8 Fukushima (10.1111/j.1530-9290.2010.00316.x-BIB12|cit13) 2000; 118-C Glassey (10.1111/j.1530-9290.2010.00316.x-BIB32|cit14) 1974; 21 Spengler (10.1111/j.1530-9290.2010.00316.x-BIB28|cit27) 2003; 25 Arena (10.1111/j.1530-9290.2010.00316.x-BIB2|cit2) 2003b; 8 Finnveden (10.1111/j.1530-9290.2010.00316.x-BIB10|cit11) 1998; 24 Tsai (10.1111/j.1530-9290.2010.00316.x-BIB31|cit33) 2009; 47 Bjorklund (10.1111/j.1530-9290.2010.00316.x-BIB4|cit4) 2005; 44 10.1111/j.1530-9290.2010.00316.x-BIB8|cit8 Boon (10.1111/j.1530-9290.2010.00316.x-BIB6|cit7) 2003; 7 Sugiyama (10.1111/j.1530-9290.2010.00316.x-BIB20|cit29) 2006; 84 Arena (10.1111/j.1530-9290.2010.00316.x-BIB1|cit1) 2003a; 96 Sodhi (10.1111/j.1530-9290.2010.00316.x-BIB27|cit26) 2001; 23 Yasuda (10.1111/j.1530-9290.2010.00316.x-BIB24|cit36) 2001; 12 Røine (10.1111/j.1530-9290.2010.00316.x-BIB19|cit25) 2003 Nakatani (10.1111/j.1530-9290.2010.00316.x-BIB17|cit23) 2010; 15 Hara (10.1111/j.1530-9290.2010.00316.x-BIB33|cit15) 2007; 32 Boon (10.1111/j.1530-9290.2010.00316.x-BIB5|cit6) 2000; 4 Tokai (10.1111/j.1530-9290.2010.00316.x-BIB22|cit32) 2000; 2 Tang (10.1111/j.1530-9290.2010.00316.x-BIB30|cit30) 2008; 40 10.1111/j.1530-9290.2010.00316.x-BIB14|cit18 Isaacs (10.1111/j.1530-9290.2010.00316.x-BIB13|cit17) 1997; 1 10.1111/j.1530-9290.2010.00316.x-BIB21|cit31 |
| References_xml | – reference: Bjorklund, A. and G. Finnveden. 2005. Recycling revisited: Life cycle comparisons of global warming impact and total energy use of waste management strategies. Resources, Conservation and Recycling 44(4): 309-317. – reference: Williams, J. A. S., S. Wongweragiat, X. Qu, J. B. McGlinch, W. Bonawi-tan, J. K. Choi, and J. Schiff. 2007. An automotive bulk recycling planning model. European Journal of Operational Research 177: 969-981. – reference: Arena, U., M. L. Mastellone, and F. Perugini. 2003b. Life cycle assessment of a plastic packaging recycling system. International Journal of Life Cycle Assessment 8(2): 92-98. – reference: Liberopoulos, G., G. Kozanidis, and O. Hatzikonstantinou. 2010. Production scheduling of a multi-grade PET resin plant. Computers and Chemical Engineering 34: 387-400. – reference: Sodhi, M. S. and B. Reimer. 2001. Models for recycling electronics end-of-life products. OR Spectrum 23: 97-115. – reference: Spengler, T., M. Ploog, and M. Schroter. 2003. Integrated planning of acquisition, disassembly and bulk recycling: a case study on electronic scrap recovery. OR Spectrum 25: 413-442. – reference: Boon, J. E., J. A. Isaacs, and S. M. Gupta. 2003. End-of-life infrastructure economics for "clean vehicles" in the United States. Journal of Industrial Ecology 7(1): 25-45. – reference: Council for PET Bottle Recycling, Japan. 2007. PET bottle recycle nenji houkoku-sho 2008 nendo-ban. [Annual report for PET bottle recycling 2007] Tokyo , Japan : Council for PET Bottle Recycling. – reference: Noda, R., M. Komatsu, and E. Sumi. 2001. Evaluation of material recycling for plastics: Environmental aspects. Journal of Material Cycles and Waste Management 3(2): 118-125. – reference: Lu, Q., J. A. S. Williams, M. Posner, W. Bonawi-tan, and X. Qu. 2006. Model-based analysis of capacity and service fees for electronics recyclers. Journal of Manufacturing Systems 25 (1): 45-57. – reference: Arena, U., M. L. Mastellone, and F. Perugini. 2003a. The environmental performance of alternative solid waste management options: A life cycle assessment study. Chemical Engineering Journal 96(1-3): 207-222. – reference: Hara, T., H. Shima, Y. Yoshida, and R. Matsuhashi. 2007. Model analysis of an inter-industrial and inter-regional waste recycling system in Japan. Energy 32: 609-618. – reference: Ekvall, T., G. Assefa, A. Bjorklund, O. Eriksson, and G. Finnveden. 2007. What life-cycle assessment does and does not do in assessments of waste management. Waste Management 27(8): 989-996. – reference: Nakatani, J., M. Fujii, Y. Moriguchi, and M. Hirao. 2010. Life-cycle assessment of domestic and transboundary recycling of post-consumer PET bottles. International Journal of Life Cycle Assessment 15(6): 590-597. – reference: Tsai, W. H. and S. J. Hung. 2009. 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In this study, we develop a framework for the multicriteria design of plastic recycling based on quality information and environmental impacts for the... In this study, we develop a framework for the multicriteria design of plastic recycling based on quality information and environmental impacts for the purpose... |
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| SubjectTerms | Carbon dioxide Carbon dioxide emissions Collaboration Consumers Consumption Criteria Decision making Design Environmental impact Fossils Group decision making industrial ecology life cycle management (LCM) Linear programming mechanical recycling mixed-integer linear programming (MILP) Monte Carlo simulation Plastics Plastics recycling Polyesters Polyethylene terephthalate polyethylene terephthalate (PET) Product lifecycle management quality demand Recycling Resource consumption Simulation Studies Wastes |
| Title | Multicriteria Design of Plastic Recycling Based on Quality Information and Environmental Impacts |
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