Supplier’s Selection Based on Lean-Green Production Indicators by Goal Programming, Fuzzy DEMATEL and Fuzzy Quality Function Development
الموضوعات :Raheleh Abbasi Bastami 1 , Reza Ehtesham Rasi 2 , Sadegh Abedi 3
1 - Department of Industrial Management, Qazvin Branch, Islamic Azad University, Qazvin, Iran
2 - Department of Industrial Management, Qazvin Branch, Islamic Azad University, Qazvin, Iran
3 - Department of Industrial Management, Qazvin Branch, Islamic Azad University, Qazvin, Iran
الکلمات المفتاحية: Fuzzy Quality Function Development, Supplier selection, goal programming, Lean Green Production,
ملخص المقالة :
One of the most important parts of the green supply chain management (GSCM) is the green supplier. The green supplier selection process has a vague nature. Therefore, specific approaches, such as fuzzy, are necessary during their evaluation. On the other hand, the choice of a coherent and integrated strategy is vital to achieve lean and green production. Accordingly, the present study aimed to select suppliers based on lean green production indicators by goal programming, fuzzy DEMATEL and quality performance expansion. The statistical population of this study consisted of personnel (managers, assistants and experts) with 16 managers and assistants and 46 experts. In this research, the Cochran formula (including error percentage of 5%) was used to determine the number of statistical samples. Accordingly, 53 experts from Pars Khodro Company participated as a sample (by simple random sampling method). In order to analyze the data, fuzzy DEMATEL methods, expansion of fuzzy performance quality and goal programming were used. According to the findings of the present study, continuous improvement to achieve lean green indicators is the main element of the production system at Pars Khodro Company. The important aspect of determining how much damage would be bestowed on the best supplier, so that it would be possible to determine the least amount of damage in sum, was reviewed in this section. In other words, the lowest possible losses are based on the suffering of the current losses, the supplier and in which level of losses it has the most optimal status.
Ahmadi, A.A., Afshari, A., & Shkari, H. (2013). Measuring the Success of Organizations in Green Supply Chain Management with the Green Supplier selection Approach (Case: Iran Alloy Steel Co.), Commercial Law Research Quarterly, Special Issue No. 66, pp. 96-127.
Azimi, M., & Gholami, M. (2012). Increasing Public Environmental Knowledge with Emphasis on Environmental Education, Fourth National Conference on Education, Tehran.
Bergmiller G.G., McCright P.R.(2009).Parallel Models for Lean and Green operations?, Proceedings of the 2009 Industrial Engineering Research Conference‚Miami‚FL.
Blücher, D., Öjmertz, B.(2008). Utmana dina processer! Resurseffektiva tankesätt och principer: en introduktion till Lean produktion. Swerea-IVF, Mölndal, Sweden.
Bojadziev, George; Bojadziev, Maria. (2007).Fuzzy Logic for Business, Finance, and Management, Advances in British Columbia Institute of Technology, Canada, 2nd Edition.
Cherrafi, A., Elfezazi, S., Hurley, B., Garza-Reyes, J. A., Kumar, V., & Batista, L. (2018). Green and lean: a Gemba–Kaizen model for sustainability enhancement. Production Planning & Control: The Management of Operations,2(5),pp.2-14.
Davari .(2009). Lean knowledge - concepts and theory. Kind Publishing. Fourth edition. Second edition.
Diyati Dailami, Z., & Ghaffarian, M. (2016). Investigating the relationship between the green supply chain and the value of Production companies, Scientific Research, Journal of Financial Accounting knowledge, 3(8), pp. 67-47.
Doorasamy, M., Garbharran, H. (2015). The role of environmental management accounting as a tool to calculate environmental costs and identify their impact on a company’s environmental performance. Asian journal of business and management, 3(1),pp.8-30.
Duber-Smith, D. C. (2005). The Green Imperative. Soap, Perfumery, and Cosmetics, 78 (8), pp. 24-26.
Dursun, M., & Şener, Z. (2014). An Integrated DEMATEL-QFD Model for Medical Supplier Selection. World Academy of Science, Engineering and Technology, International Journal of Mechanical, Aerospace, Industrial, Mechatronic and Production Engineering, 8(3),pp.592-596.
Fazlzadeh, A., Marandian Hagh, M.N. (2014). Lean Production System a Step Toward Green Production, Fourth National Conference on Health and Environment and Sustainable Development, Islamic Azad University, Bandar Abbas, Iran.
Florida, R. (1996). Lean and green: the move to environmentally conscious production. California management review, 39(1), pp.80-105.
Fontela,E.,Gabus, A.(1976). The DEMATEL Observer. Battelle Institute, Geneva Research Center.
Harlin, U., Moestam Ahlström, L., Medbo, L., Svenningstorp, J.2008. A production system assessment approach within swedish automotive industry. In: Proceedings of the Swedish Production Symposium, SPS 2008, pp.18-20.
Havvey, T. (2010). An education 21 program: Orienting Environmental Education towards sustainable development and capacity building for Rio- the environmentalist,15.
Heydar Pour, F., & Gharani, M. (2015). Effect of Environmental Accounting on Financial and Operating Indicators in Production Companies, Financial Accounting and Audit Research, 7 (26),pp.50-39.
Hosseini Envari, H., & Aghdashi, S.B. (2008). Lean Thinking in Construction Management Projects, Fourth International Project Management Conference, Tehran, Ariana Research Group.
Imani ,M., & Ahmadi ,A. (2009). Green Supply Chain Management: A New Strategy for Achieving Competitive Advantage, Automotive Engineering Related industries Monthly 1(7),pp. 19-14.
Jalali, M. (2014). Green supply chain and its main indicators and Indicators, Third Annual National Conference on Modern Management Sciences, Gorgan, Academic and Professional Association of Golestan Managers and accountants, Islamic Azad University, Ali Abad Katoul Branch.
Jasiulewicz-Kaczmarek, M. (2014). Integrating Lean and Green Paradigms in Maintenance Management. IFAC Proceedings Volumes, 47(3), pp.4471-4476.
Jayaram, J., Das, A., Nicolae, M.(2010). Looking beyond the obvious: unraveling the Toyota production system. Int. J. Prod. Econ. 128, pp.280-291.
Karami Poor, M., Barzaniya, D., & Mortazavi Amiri, S. Javad. (2014). Optimizing the value stream for lean production systems using cost-time profiles. The first National Conference on Industrial Mathematics in Tabriz.
Khoo, L. P., & Ho, N. C. (1996). Framework of a fuzzy quality function deployment system. International Journal of Production Research, 34(2), pp.299-311.
Kotzab, Herbert, Munch, Hilde M., Faultrier, Brigitte de and Teller, Christoph.(2011). Environmental Retail Supply Chains: When Global Goliaths Become Environmental Davids. International Journal of Retail & Distribution Management. 39(9), pp. 658-681.
Kurdve, M. (2014).Development of collaborative green lean production systems.Ph.D. thesis, Malardalen University , Sweden.
Kurdve, M., Daghini, L.(2012). Sustainable metal working fluid systems: best and common practices for metal working fluid maintenance and system design in Swedish industry. Int. J. Sust. Manuf. 2(4),pp.276-292.
Kurdve, M., Zackrisson, M., Wiktorsson, M., & Harlin, U. (2014). Lean and Green integration into production system models–Experiences from Swedish industry. Journal of Cleaner Production, 85(3), pp.180-190.
Liou, J.J.H., Yen, L., Tzeng, G.-H.(2008). Building an effective safety management system for airlines. Journal of Air Transport Management, 14, 20.
Lang J.(2010). Lean practices in the supply chain; Real Value in Changing World, pp. 9-17.
Laugen, B.T., Acur, N., Boer, H., Frick, J.(2005). Best production practices: what do the best-performing companies do? Int. J. Oper. Prod. Manag. 25(3),pp. 131-150.
Liker, J.(2004).The Toyota Way: 14 Management Principles from the World’s Greatest Manufacturer, McGraw-Hill, New York, NY.
Liker, J.K., 2009. The Toyota Way e Vägen till världsklass. Swedish Translation by Erkelius, L. Liber, Malmö, Sweden. (Original edition published 2004), Ed. 1:1.
MacDuffie, J.P.(2005). Human resource bundles and production performance: organizational logic and flexible production systems in the world auto industry. Industrial and Labor Relations Review, 48 (2), 197–221.
Magnusson, K., Kroslid, D., Bergman, B.(2003). Six Sigma: the Pragmatic Approach. Studentlitteratur, Lund, Sweden.
Meier, H.S. & Forrester, P.L.(2002). A Model for Evaluating the Degree of Leanness of Production Firms. Integrated Production Systems, 13(2), pp.104-109.
Montabon,F., R.,Sroufe, R.,Narasimhan.(2007). An examination of corporate reporting, environmental management practices and firm performance, Journal of Operations Management. 25(5),pp. 998–1014.
Netland, T.(2013). Exploring the phenomenon of company-specific Production Systems: One-best-way or own-best-way? International Journal of Production Research. 51(4),pp.1084-1097.
Nik nezhad, M. (2011). Green Supply Chain (with Case Study), Supply Chain Management Quarterly, 13(3),pp. 28-20.
Ninlawan,C.(2010). The Implementation of Green Supply Chain Management Practices in Electronics Industry, Proceeding of the International Multiconference of Engineers and Computer Scientists. pp.17-19.
Pak Maram, A., & Rostam Nejad, I. (2015). The simultaneous implementing of lean production and ERP: towards a lean ERP-based implementation process. Management Accounting Quarterly, 8 (27),pp.103-87.
Pampanelli, A. B., Found, P., & Bernardes, A. M. (2014). A Lean & Green Model for a production cell. Journal of cleaner production, 85, pp.19-30.
Pourzamani, Z., & Mashayekhi Fard, S. (2015). Environmental Management Accounting, An Integrated Approach to Designing Green Production Using Fuzzy Analytical Hierarchy, Management Accounting Scientific Research Quarterly, 8(23),pp.36-21.
Powell, D., Riezebos, J., & Strandhagen, J. O. (2013). Lean production and ERP systems in small-and medium-sized enterprises: ERP support for pull production. International Journal of Production Research. 51(2), pp.395-409.
Rao, Purba. (2006). Greening Production: a South-East Asian Experience, International Journal of Operations & Production Management.24(3), pp. 289-320.
Salari, A., Farsijani, H., & Hamidizadeh, M. R. (2014). Prioritization of Lean Production Factors with Interpretative Structural Approach: Case Study of Automotive Supply Chain. Management Researches in Iran. 18(2),pp. 126-107.
Sanayei, A. (2008). An integrated group decision-making process for supplier se- lection and order allocation using multi-attribute utility theory and linear pro- gramming. Journal of the Franklin institute.345 (7), pp.731–747. Seyyed Hosseini & Bayat Turk. (2005). In a study entitled Assessment OF Lean Production Factors in non-continuous Production Organizations. University of teaching Humanities Quarterly, 9(2),pp. 84-59.
Shafiee, M., & Mirghafouri. H. (1390). Evaluation of Lean Production Approach with the Hierarchical Approach, Scientific - research quarterly of industrial Management Studies.9(22), pp. 74-49.
Soriano-Meier, H., & Forrester, P. L. (2004). A model for evaluating the degree of leanness of production firms. Integrated Production Systems. 13(2),pp.104-109.
Stålberg, L., Gåsvaer, D., von Axelson, J., Widfeldt, M.(2012). Towards a holistic perspective on production system improvement. In: Proceedings of the 5th Swedish Production Symposium, Linköping, Sweden, pp. 341-346.
Taji,R., Alavi, Q., & Karbasi Najafabadi, Ali.( 2013). Providing an Analytic Model Based on the Principles of lean Thinking (Case Study: Isfahan Cable Co.The First National Conference on Accounting and Management, Shiraz, Kharazmi International Institute for Educational and Research.
Tzeng, G.-H., Chiang, C.-H., Li, C.-W.(2006).Evaluating intertwined effects in e-learning programs: A novel hybrid MCDM model based on factor analysis and DEMATEL. Expert Systems with Applications 32, 1028–1044.
Toloui, A., Motadel, M. Reza., & Ehtesham Raci, R. (2009). Providing An Analysis Model for Establishing Lean Production System (Case Study: Leather and Shoes Industry of Tehran Province) (Researcher).Management Quarterly, 6 (13),pp.45-36.
Trowbridge, Philip (2006); "A Case Study of Green Supply-Chain Management at Advanced Micro Device", GMI, Vol.35.
Talaei-Khoei, A., Solvoll, T., Ray, P., Parameshwaran, N. (2012).Maintaining Awareness Using Policies; Enabling Agents to Identify Relevance of Information, Journal of Computer and System Sciences,78(1), pp. 370-391.
vallaei, I. (2005). Patterns of Behavior towards Nature (Environment) from the Perspective of the Qur'an and tradition, field of Quranic Sciences and Hadiths, Azad University. Science and Research Branch, (Ph.D.) Ph.D. thesis.
Wendy K.; Lean transformation report; The Governor’s Office of Accountability & Performance October 2012.
Wei,Li. Hshiung,Tzeng.(2008). Identification of a Threshold Value for the DEMATEL Method: Using the Maximum Mean De-Entropy Algorithm. International Conference on Multiple Criteria Decision Making,pp.789-796.
Womack, J. P., Jones, D. T., & Roos, D.(2000). What Older Americans Think: Interest Groups and Aging Policy.
Zadeh, L. A. (1988). Fuzzy logic. Computer. 21(4),pp.83-93.
Zaim S.‚ Şevkli M.(2002). The Methodology of Quality Function Deployment with Crisp and Fuzzy Approaches and an Implementing in the Turkish Shampoo Industry. Journal of Economic and Social Research. 4(1),pp. 27-53.
Zamani, A., & Heydari., M.(2011). Interaction between Lean Production and Agile Production. Journal of Production 45,pp.33-31.
Zhu, Qinghua, Sarkis, Joseph, Cordeiro, James J. and Lai, Kee-hung.(2008). Firm-Level Correlates of Emergent Green Supply Chain Management Practices in the Chinese Context. Omega. 36, pp. 577 – 591.
