Sustainability is on the international agenda, and is a driver for industry in international competition. Sustainability encompasses the three pillars: environment, society and economy. To prevent shifting of burden, the whole life cycle needs to be taken into account. For the environmental dimension of sustainability, life cycle assessment (LCA) has been practiced for a while and is a standardized method. A life cycle approach for the social and economic pillars of sustainability needs to be further developed. This paper investigates the application of life cycle costing (LCC) as part of a wider sustainability assessment where also social life cycle assessment (SLCA) and LCA are combined. LCA-type LCC is applied on a case study of remanufactured alternators. Remanufacturing of automobile parts is a fast growing important business with large potential for cost and resource savings. Three design alternatives for the alternator and three locations for the remanufacturing plant are evaluated. The remanufacturer perspective and the user perspective are investigated. The results for the LCA-type LCC show that the largest cost for the remanufacturer is the new parts replacing old warn parts. However, the user cost, and therein especially, cost for fuel used for the alternator’s power production dominates and should be the focus for further improvement. In conducting the case study, it was revealed that the connection between the LCA-type LCC results and the economic dimension of sustainability needs to be further investigated and defined. For this purpose, areas of protection for life cycle sustainability assessment and LCA-type LCC in particular need further development.
References
[1]
World Commission on Environment and Development. Our Common Future; Oxford University Press: Oxford, UK, 1987.
[2]
Environmental Management—Life Cycle Assessment—Principles and Framework (ISO 14040:2006), 2nd ed. ed.; ISO: Geneva, Switzerland, 2006; p. 20.
[3]
Environmental Management—Life Cycle Assessment—Requirements and Guidelines (ISO 14044:2006); ISO: Geneva, Switzerland, 2006; p. 46.
[4]
Finkbeiner, M.; Schau, E.M.; Lehmann, A.; Traverso, M. Towards life cycle sustainability assessment. Sustainability 2010, 2, 3309–3322.
[5]
Kl?pffer, W.; Renner, I. Life-cycle based sustainability assessment of products. In Environmental Management Accounting for Cleaner Production; Schaltegger, S., Bennett, M., Burritt, R.L., Jasch, C., Eds.; Springer: Dordrecht, The Netherlands, 2009; Volume 24, pp. 91–102.
[6]
Kl?pffer, W. Life-cycle based methods for sustainable product development. Int. J. Life Cycle Assess. 2003, 8, 157–159.
[7]
Hauschild, M.; Jeswiet, J.; Alting, L. From life cycle assessment to sustainable production: Status and perspectives. CIRP Ann. Manuf. Technol. 2005, 54, 1–21.
[8]
Environmental Management—Life Cycle Assessment—Principles and Framework (ISO 14040), 1st ed. ed.; International Organization for Standardization: Geneve, Switzerland, 1997; p. 12.
[9]
Hunkeler, D.; Lichtenvort, K.; Rebitzer, G. Environmental Life Cycle Costing; CRC Press: Boca Raton, FL, USA, 2008.
[10]
Lichtenvort, K.; Rebitzer, G.; Huppes, G.; Ciroth, A.; Seuring, S.; Schmidt, W.-P.; Günther, E.; Hoppe, H.; Swarr, T.; Hunkeler, D. Introduction—History of life cycle costing, its categorization, and its basic framework. In Environmental Life Cycle Costing; Hunkeler, D., Lichtenvort, K., Rebitzer, G., Eds.; CRC Press: Boca Raton, FL, USA, 2008; pp. 1–6.
[11]
Rebitzer, G.; Nakamura, S. Environmental life cycle costing. In Environmental Life Cycle Costing; Hunkeler, D., Lichtenvort, K., Rebitzer, G., Eds.; CRC Press: Boca Raton, FL, USA, 2008; pp. 35–57.
[12]
Kl?pffer, W. Outlook—Role of environmental life cycle costing in sustainability assessment. In Environmental Life Cycle Costing; CRC Press: Boca Raton, FL, USA, 2008.
[13]
Kelly, J.; Hunter, K. Life Cycle Costing of Sustainable Design; RICS Research: London, UK, 2009; p. 53.
[14]
Buildings and Constructed Assets—Service-Life Planning—Part 5: Life-Cycle Costing (ISO 15686-5); International Standardization Organization: Geneva, Switzerland, 2008.
[15]
Goldstein, B.; Eriksson, A.H. Livscykelkostnader—Till Vilken Nytta f?r Milj?n och Pl?nboken?; Nordiska ministerr?det: K?penhamn, Denmark, 2010.
[16]
Bragan?a, L.; Mateus, R.; Koukkari, H. Building sustainability assessment. Sustainability 2010, 2, 2010–2023.
[17]
Fiksel, J.; McDaniel, J.; Mendenhall, C. Sustainability: Ways of knowing/ways of acting. In Measuring Progress Towards Sustainability—Principles, Process, and Best Practices, Proceedings of the 8th International Network Conference of the Greening of Industry Network, GIN1999, Chapel Hill, NC, USA, 14–17 November 1999.
[18]
Utne, I.B. Life cycle cost (LCC) as a tool for improving sustainability in the Norwegian fishing fleet. J. Clean. Prod. 2009, 17, 335–344.
[19]
Meyer, R. Generatoren und Starter [Energieerzeugung und Bordnetz, Physikalische Grundlagen, Ger?teausführungen für PKW und Nkw, Qualit?tsmanagement, Werkstatt-Technik]; Bosch: Stuttgart, Germany, 2002; p. 104 S.
[20]
Elektrische Energieversorgung. Automobilelektronik—Eine Einführung für Ingenieure; Reif, K., Ed.; Friedr. Vieweg & Sohn: Wiesbaden, Germany, 2007; pp. 203–235.
[21]
?stlin, J.; Sundin, E.; Bj?rkman, M. Product life-cycle implications for remanufacturing strategies. J. Clean. Prod. 2009, 17, 999–1009.
[22]
Teunter, R.H.; Flapper, S.D.P. Optimal core acquisition and remanufacturing policies under uncertain core quality fractions. Eur. J. Oper. Res. 2011, 210, 241–248.
[23]
Pokharel, S.; Liang, Y.J.; Lim, G.H. Pricing used products for remanufacturing. Eur. J. Oper. Res. 2009, 193, 390–395.
[24]
Niemann, J.; Schuh, G.; Baessler, E.; Eigner, M.; Stolz, M.; Steinhilper, R.; Janusz-Renault, G.; Hieber, M. Management des produktlebenslaufs. In Handbuch Unternehmensorganisation—Strategien, Planung, Umsetzung; Bullinger, H.-J., Spath, D., Warnecke, H.-J., Westk?mper, E., Eds.; Springer: Berlin, Germany, 2009; pp. 223–315.
[25]
Conserving Resources Through Remanufacturing. 2010. BOSCH Web site. Available online: http://csr.bosch.com/content/language2/html/6399_ENU_XHTML.aspx (accessed on 16 December 2010).
[26]
Kim, H.-J.; Skerlos, S.; Severengiz, S.; Seliger, G. Characteristics of the automotive remanufacturing enterprise with an economic and environmental evaluation of alternator products. Int. J. Sustain. Manuf. 2009, 1, 437–449.
[27]
Steinhilper, R.; Freiberger, S. Kfz-Ersatzteilversorgung durch Austauschteileproduktion (Remanufacturing) von mechatronischen Baugruppen spart Rohstoffe und Energie. Umweltwirtschaftsforum 2006, 14, 25–30.
[28]
Smith, V.M.; Keoleian, G.A. The value of remanufactured engines: Life-cycle environmental and economic perspectives. J. Ind. Ecol. 2004, 8, 193–221.
[29]
Pigosso, D.C.A.; Zanette, E.T.; Filho, A.G.; Ometto, A.R.; Rozenfeld, H. Ecodesign methods focused on remanufacturing. J. Clean. Prod. 2010, 18, 21–31.
[30]
Zwolinski, P.; Brissaud, D. Remanufacturing strategies to support product design and redesign. J. Eng. Des. 2008, 19, 321–335.
[31]
Warsen, J.; Laumer, M.; Momberg, W. Comparative life cycle assessment of remanufacturing and new manufacturing of a manual transmission. In Glocalized Solutions for Sustainability in Manufacturing; Hesselbach, J., Herrmann, C., Eds.; Springer: Berlin, Germany, 2011; pp. 67–72.
[32]
Ke, Q.; Zhang, H.-C.; Liu, G.; Li, B. Remanufacturing engineering literature overview and future research needs. In Glocalized Solutions for Sustainability in Manufacturing; Hesselbach, J., Herrmann, C., Eds.; Springer: Berlin, Germany, 2011; pp. 437–442.
[33]
Korpi, E.; Ala-Risku, T. Life cycle costing: A review of published case studies. Manag. Audit. J. 2008, 23, 240–261.
[34]
Dhillon, B.S. Life Cycle Costing—Techniques, Models, and Applications; Gordon and Breach Science Publishers: New York, NY, USA, 1989.
[35]
Bubeck, D. Life Cycle Costing (LCC) im Automobilbau—Analyse und Planung von Lebenszykluskosten bei der Entwicklung von Produkten und Produktsystemen; Verlag Dr. Kova?: Hamburg, Germany, 2002; p. 332.
[36]
Asiedu, Y.; Gu, P. Product life cycle cost analysis: State of the art review. Int. J. Prod. Res. 1998, 36, 883–908.
[37]
Sachbilanz. ?kobilanz (LCA): Ein Leitfaden für Ausbildung und Berufi; Kl?pffer, W., Grahl, B., Eds.; Wiley-VCH: Weinheim, Germany, 2009; pp. 63–194.
[38]
Fet, A.M.; Schau, E.M.; Haskins, C. A framework for environmental analyses of fish food production systems based on systems engineering principles. Syst. Eng. 2010, 13, 109–118.
[39]
Postawa, A.B.; Brand?o, D.; Rubin, R.S.; Seliger, G. Sustainable product development and life cycle engineering. In Configuration of Value Creation Modules, Instantiated in Mini Factories for Disassembly of Printed Circuit Boards, Proceedings of the 7th Global Conference on Sustainable Manufacturing, Chennai, India, 2–4 December 2009.
[40]
Postawa, A.B.; Kleinsorge, M.; Krüger, J.; Seliger, G. Automated image based recognition of manual work steps in the remanufacturing of alternators. Proceedings of the 8th Global Conference on Sustainable Manufacturing, Khalifa City, The United Arab Emirates, 22–24 November 2010.
[41]
Wikipedia Design for X. 2011. Wikipedia Web site. Available online: http://en.wikipedia.org/wiki/Design_for_X (accessed on 10 November 2011).
[42]
Matsumoto, M. Business frameworks for sustainable society: A case study on reuse industries in Japan. J. Clean. Prod. 2009, 17, 1547–1555.
[43]
Fügenschuh, A.; Gausemeier, P.; Seliger, G.; Severengiz, S. Scenario technique with integer programming for sustainability in manufacturing. Proceedings of the 8th International Heinz Nixdorf Symposium—Changing Paradigms: Advanced Manufacturing and Sustainable Logistics, Paderborn, Germany, 21–22 April 2010; p. 12.
[44]
H?pfner, U.; Hanusch, J.; Lambrecht, U. Abwrackpr?mie und Umwelt—eine erste Bilanz; IFEU—Institut für Energie-und Umweltforschung Heidelberg & Bundesministerium für Umwelt, Naturschutz und Reaktorsicherheit (BMU): Berlin, Germany, 2009; p. 13.
[45]
Warburg, N.; Mailaender, E.; Herrmann, C.; Eyerer, P.; Reckziegel, C.; Saatkamp, T.; Stutz, M. Obtaining environmental benefits by application of electronic systems—Automotive LCA case study: Starter generator vs. conventional system. Proceedings of the 2002 IEEE International Symposium on Electronics and the Environment, San Francisco, CA, USA, 6–9 May 2002; pp. 27–31.
[46]
Postawa, A.B. Department for Machine Tools and Factory Management, Technische Universitaet Berlin, Berlin, Germany. Personal communication about alternator parts and their replacement probability, 2010.
[47]
Bokranz, R.; Landau, K. Produktivit?tsmanagement von Arbeitssystemen: MTM-Handbuch; Sch?ffer-Poeschel: Stuttgart, Germany, 2006.
[48]
Maynard, H.B.; Stegemerten, G.; Schwab, J. Methods-Time Measurement; McGraw-Hill: New York, NY, USA, 1948; p. 292.
[49]
Sincavage, J.R.; Haub, C.; Sharma, O. Labor costs in India's organized manufacturing sector. Mon. Labor Rev. 2010, 133, 3–22.
[50]
Statistics Sierra Leone. 2009 Annual Economic Survey; Statistics Sierra Leone, Economic Statistics Division: Freetown, Sierra Leone, 2010; p. 32.
[51]
India's Organized Manufacturing Sector, 2011. U.S. Bureau of Labor Statistics Web site. Available online: http://www.bls.gov/fls/india.htm (accessed on 3 August 2011).
[52]
International comparisons of hourly compensation costs in manufacturing. 2008. U.S. Bureau of Labor Statistics Web site. Available online: http://www.bls.gov/news.release/pdf/ichcc.pdf (accessed on 17 December 2010).
[53]
Global Wages Database. 2010. International Labour Organization Web site. Available online: http://www.ilo.org/legacy/english/protection/travail/pdf/wagedatabasel0.xls (accessed on 4 August 2011).
[54]
Annual Survey of Industries. 2011. The Ministry of Statistics and Programme Implementation Web site. Available online: http://mospi.nic.in/stat_act_t3.htm (accessed on 4 August 2011).
[55]
Preisauszug der Niederlassung Berlin [Price list for the Berlin branch]; Kia Motors Deutschland GmbH: Berlin, Germany, 2009.
[56]
Lichtmaschine KIA Retona [Alternator KIA Retona]. 2009. TeileHaber Web site. Available online: http://www.teilehaber.de/hellalichtmaschine.-generator-kia-retona.-sportage-id2100553.html (accessed on 29 July 2009).
[57]
The World Bank Trading Across Borders—Data. 2010. Doing Business Web site. Available online: http://www.doingbusiness.org/data/exploretopics/trading-across-borders# (accessed on 8 August 2011).
Global Shipping Costs Home Page. Available online: http://www.globalshippingcosts.com/ (accessed on 8 August 2011).
[60]
Koffler, C.; Rohde-Brandenburger, K. On the calculation of fuel savings through lightweight design in automotive life cycle assessments. Int. J. Life Cycle Assess. 2010, 15, 128–135.
[61]
Heinzel, A.; Mathiak, J.; Dokupil, M.; Roes, J. Problemstellung, chancen und risiken von brennstoffzellen APU's. Proceedings of OTTI-Profiforum “Brennstoffzellen—Entwickler und Anwender Berichten”, Berlin, Germany, 7–8 October 2003.
[62]
Bradfield, M. Improving Alternator Efficiency Measurably Reduces Fuel Costs; Remy Inc.: Pendleton, IN, USA, 2008.
[63]
Pricelist Total Petrol Station; Berlin, Germany, 2010.
[64]
Huppes, G.; Ciroth, A.; Lichtenvort, K.; Rebitzer, G.; Schmidt, W.-P.; Seuring, S. Modeling for life cycle costing. In Environmental Life Cycle Costing; Hunkeler, D., Lichtenvort, K., Rebitzer, G., Eds.; CRC Press: Boca Raton, FL, USA, 2008; pp. 17–34.
[65]
Sundin, E.; Bj?rkman, M.; Jacobsson, N. Electronics and the environment. In Analysis of Service Selling and Design for Remanufacturing, Proceedings of the 2000 IEEE International Symposium on Electronics and the Environment, ISEE 2000, San Francisco, CA, USA, 8–10 May 2000; pp. 272–277.
[66]
ILO Wages in manufacturing (Table 5B). 2010. International Labour Organization Web site. Available online: http://laborsta.ilo.org/ (accessed on 17 December 2010).
[67]
Ijomah, W.L.; McMahon, C.A.; Hammond, G.P.; Newman, S.T. Development of design for remanufacturing guidelines to support sustainable manufacturing. Robot. Comput-Integr. Manuf. 2007, 23, 712–719.
[68]
Costanza, R.; Daly, H.E. Natural capital and sustainable development. Conserv. Biol. 1992, 6, 37–46.
[69]
Udo de Haes, H.; Jolliet, O.; Finnveden, G.; Hauschild, M.; Krewitt, W.; Müller-Wenk, R. Best available practice regarding impact categories and category indicators in life cycle impact assessment—Part I. Int. J. Life Cycle Assess. 1999, 4, 66–74.
[70]
Dreyer, L.; Hauschild, M.; Schierbeck, J. A Framework for social life cycle impact assessment. Int. J. Life Cycle Assess. 2006, 11, 88–97.
[71]
Schneider, L.; Berger, M.; Finkbeiner, M. The anthropogenic stock extended abiotic depletion potential (AADP) as a new parameterisation to model the depletion of abiotic resources. Int. J. Life Cycle Assess. 2011, 16, 929–936.
[72]
Krewitt, W.; Mayerhofer, P.; Trukenmüller, A.; Friedrich, R. Application of the impact pathway analysis in the context of LCA. Int. J. Life Cycle Assess. 1998, 3, 86–94.
[73]
J?rgensen, A.; Hermann, I.; Mortensen, J. Is LCC relevant in a sustainability assessment? Int. J. Life Cycle Assess. 2010, 15, 531–532.
