Abstract
This study intends to identify, analyse, and evaluate sustainability assessment (SA) methods, along with the critical factors of sustainable manufacturing (SM) practice. Based on the opinion of experts and a literature review, 10 SA methods and 20 critical factors of SM practice were identified and analysed in relation to their optimal selection in sustainable operations. This research uses a fuzzy MULTIMOORA (Multi-Objective Optimisation on the basis of a Ratio Analysis plus the full multiplicative form) to rank SA methods based on the weights of the critical factors of SM practice obtained using a fuzzy analytic hierarchy process (AHP). A case study of the leather processing industry in India describes the use of the technique in practice. The ranks obtained using the AHP-fuzzy MULTIMOORA is compared with those obtained using the best–worst method (BWM)-fuzzy MULTIMOORA. The results reveal that the Index of Social Progress and the Social Life Cycle Assessment are the top two reliable SA methods based on the identified critical factors of SM practice. Among the critical factors, the ‘identification of alternative raw materials’, ‘methane mitigation’, and ‘opting for re-utilisation’ are identified as the prominent critical factors of SM practices. In addition to the critical factors of SM, this study also evaluates SA methods as they help to monitor industrial progress towards sustainability. These findings provide useful insights to practitioners and can help them select optimal and robust SA methods.
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24 March 2021
A Correction to this paper has been published: https://doi.org/10.1007/s10479-021-03994-5
References
Amrina, E., & Vilsi, A. L. (2015). Key performance indicators for sustainable manufacturing evaluation in cement industry. Procedia CIRP, 26, 19–23. https://doi.org/10.1016/j.procir.2014.07.173.
Awasthi, A., & Baležentis, T. (2017). A hybrid approach based on BOCR and fuzzy MULTIMOORA for logistics service provider selection. International Journal of Logistics Systems and Management, 27(3), 261–282.
Bhatia, M. S., Dora, M., & Jakhar, S. K. (2019). Appropriate location for remanufacturing plant towards sustainable supply chain. Annals of Operations Research, 1–22. https://doi.org/10.1007/s10479-019-03294-z.
Brauers, W. K., & Zavadskas, E. K. (2006). The MOORA method and its application to privatization in a transition economy. Control and Cybernetics, 35, 445–469.
Brauers, W. K. M., & Zavadskas, E. K. (2010). Project management by MULTIMOORA as an instrument for transition economies. Technological and Economic Development of Economy, 16(1), 5–24.
Brauers, W. K. M., & Zavadskas, E. K. (2011). MULTIMOORA optimization used to decide on a bank loan to buy property. Technological and economic development of economy, 17(1), 174–188.
Ceschin, F., & Gaziulusoy, I. (2016). Evolution of design for sustainability: From product design to design for system innovations and transitions. Design Studies, 47, 118–163.
Chakraborty, S. (2011). Applications of the MOORA method for decision making in manufacturing environment. International Journal of Advanced Manufacturing Technology, 54(9), 1155–1166.
Cimatti, B., Campana, G., & Carluccio, L. (2017). Eco design and sustainable manufacturing in fashion: A case study in the luxury personal accessories industry. Procedia Manufacturing, 8, 393–400.
Çulha, A. A. (2019). Asymmetric government expenditure: a comparison of advanced and developing countries. Journal of Economic Policy Reform, 22(2), 164–183.
Dahooie, J. H., Zavadskas, E. K., Firoozfar, H. R., Vanaki, A. S., Mohammadi, N., & Brauers, W. K. M. (2019). An improved fuzzy MULTIMOORA approach for multi-criteria decision making based on objective weighting method (CCSD) and its application to technological forecasting method selection. Engineering Applications of Artificial Intelligence, 79, 114–128.
Drissi, M., Oumsis, M., & Aboutajdine, D. (2016). A fuzzy AHP approach to network selection improvement in heterogeneous wireless networks. In International conference on networked systems (pp. 169–182). Cham: Springer.
Durga, J., Ranjithkumar, A., Ramesh, R., Girivasan, K. T. P. V., Rose, C., & Muralidharan, C. (2016). Replacement of lime with carbohydrases—A successful cleaner process for leather making. Journal of Cleaner Production, 112, 1122–1127.
Dwivedi, A., Agrawal, D., & Madaan, J. (2019). Sustainable manufacturing evaluation model focusing leather industries in India: A TISM approach. Journal of Science and Technology Policy Management, 10(2), 319–359.
García, C., & Prieto, M. A. (2019). Bacterial cellulose as a potential bioleather substitute for the footwear industry. Microbial Biotechnology, 12(4), 582.
Ghadimi, P., Yusof, N. M., Saman, M. Z. M., & Asadi, M. (2013). Methodologies for measuring sustainability of product/process: A review. Pertanika Journal of Science and Technology, 21(2), 303–326.
Gnoni, M. G., Duraccio, V., & Iavagnilio, R. (2016). A fuzzy AHP-based approach for assessing the faulty behaviour risk at workplace. International Journal of Business and Systems Research, 10(2), 291–305.
Govindan, K., Jha, P. C., Agarwal, V., & Darbari, J. D. (2019). Environmental management partner selection for reverse supply chain collaboration: A sustainable approach. Journal of Environmental Management, 236, 784–797.
Haapala, K. R., Zhao, F., Camelio, J., Sutherland, J. W., Skerlos, S. J., Dornfeld, D. A., et al. (2013). A review of engineering research in sustainable manufacturing. Journal of Manufacturing Science and Engineering, 135(4), 041013.
Hafezalkotob, A., Hafezalkotob, A., Liao, H., & Herrera, F. (2019). Interval MULTIMOORA method integrating interval borda rule and interval best-worst-method-based weighting model: Case study on hybrid vehicle engine selection. IEEE Transactions on Cybernetics. https://doi.org/10.1109/TCYB.2018.2889730.
Henri, J. F., & Journeault, M. (2010). Eco-control: The influence of management control systems on environmental and economic performance. Accounting, Organisations and Society, 35(1), 63–80.
Hosseinijou, S. A., Mansour, S., & Shirazi, M. A. (2014). Social life cycle assessment for material selection: A case study of building materials. The International Journal of Life Cycle Assessment, 19(3), 620–645.
Huang, A., & Badurdeen, F. (2017). Sustainable manufacturing performance evaluation: Integrating product and process metrics for systems level assessment. Procedia Manufacturing, 8, 563–570.
Hutchins, M. J., Richter, J. S., Henry, M. L., & Sutherland, J. W. (2019). Development of indicators for the social dimension of sustainability in a US business context. Journal of Cleaner Production, 212, 687–697.
Hutter, K., Hoffmann, S., & Mai, R. (2016). Carrotmob: a win–win–win approach to creating benefits for consumers, business, and society at large. Business and Society, 55(7), 1059–1077.
Izadikhah, M., & Saen, R. F. (2019). Ranking sustainable suppliers by context-dependent data envelopment analysis. Annals of Operations Research, 1–31.
Khurana, S., Haleem, A., & Mannan, B. (2019). Determinants for integration of sustainability with innovation for Indian manufacturing enterprises: Empirical evidence in MSMEs. Journal of Cleaner Production, 229, 374–386.
Kim, D. S., Kim, Y. W., Kim, K. J., & Shin, H. J. (2017). Research trend and product development potential of fungal mycelium-based composite materials. KSBB Journal, 32(3), 174–178.
Kishawy, H., Hegab, H., & Saad, E. (2018). Design for sustainable manufacturing: Approach, implementation, and assessment. Sustainability, 10(10), 3604–3619.
Koksalmis, E., & Kabak, Ö. (2019). Deriving decision makers’ weights in group decision making: An overview of objective methods. Information Fusion, 49, 146–160.
Kwong, C. K., & Bai, H. (2002). A fuzzy AHP approach to the determination of importance weights of customer requirements in quality function deployment. Journal of Intelligent Manufacturing, 13(5), 367–377.
Lahouel, B. B. (2016). Eco-efficiency analysis of French firms: a data envelopment analysis approach. Environmental Economics and Policy Studies, 18(3), 395–416.
Liang, W., Zhao, G., & Hong, C. (2019). Selecting the optimal mining method with extended multi-objective optimization by ratio analysis plus the full multiplicative form (MULTIMOORA) approach. Neural Computing and Applications, 31(10), 5871–5886.
Liao, Y. C., & Tsai, K. H. (2019). Innovation intensity, creativity enhancement, and eco-innovation strategy: The roles of customer demand and environmental regulation. Business Strategy and the Environment, 28(2), 316–326.
Lin, H. F. (2010). An application of fuzzy AHP for evaluating course website quality. Computers and Education, 54(4), 877–888.
Lin, M., Huang, C., & Xu, Z. (2020). MULTIMOORA based MCDM model for site selection of car sharing station under picture fuzzy environment. Sustainable Cities and Society, 53, 101873.
Liu, Y., Eckert, C. M., & Earl, C. (2020). A review of fuzzy AHP methods for decision-making with subjective judgements. Expert Systems with Applications, 113738.
Lyu, H. M., Sun, W. J., Shen, S. L., & Zhou, A. N. (2020). Risk assessment using a new consulting process in fuzzy AHP. Journal of Construction Engineering and Management, 146(3), 04019112.
Maghsoodi, A. I., Abouhamzeh, G., Khalilzadeh, M., & Zavadskas, E. K. (2018). Ranking and selecting the best performance appraisal method using the MULTIMOORA approach integrated Shannon’s entropy. Frontiers of Business Research in China, 12(1), 2.
Malek, J., & Desai, T. N. (2019). Prioritisation of sustainable manufacturing barriers using Best Worst Method. Journal of Cleaner Production, 226, 589–600.
Mathiyazhagan, K., Sengupta, S., & Mathivathanan, D. (2019). Challenges for implementing green concept in sustainable manufacturing: A systematic review. OPSEARCH, 56(1), 32–72.
Mefford, R. N. (2019). Sustainable CSR in Global Supply Chains. Journal of Management and Sustainability, 9, 82.
Merigo, J. M., & Casanovas, M. (2011). Induced and uncertain heavy OWA operators. Computers and Industrial Engineering, 60, 106–116.
Moldavska, A., & Welo, T. (2017). The concept of sustainable manufacturing and its definitions: A content-analysis based literature review. Journal of Cleaner Production, 166, 744–755.
Mulliner, E., Malys, N., & Maliene, V. (2016). Comparative analysis of MCDM methods for the assessment of sustainable housing affordability. Omega, 59, 146–156.
Nam, S., Lee, D. K., Jeong, Y. K., Lee, P., & Shin, J. G. (2016). Environmental impact assessment of composite small craft manufacturing using the generic work breakdown structure. International Journal of Precision Engineering and Manufacturing-Green Technology, 3(3), 261–272.
Noble, B. F. (2000). Strategic environmental assessment: What is it and what makes it strategic? Journal of Environmental Assessment Policy and Management, 2(02), 203–224.
Omrani, H., Alizadeh, A., & Amini, M. (2019). A new approach based on BWM and MULTIMOORA methods for calculating semi-human development index: An application for provinces of Iran. Socio-Economic Planning Sciences. Available at https://doi.org/10.1016/j.seps.2019.02.004
Pan, X., Han, C., Lu, X., Jiao, Z., & Ming, Y. (2020). Green innovation ability evaluation of manufacturing enterprises based on AHP–OVP model. Annals of Operations Research, 290(1), 409–419.
Piyathanavong, V., Garza-Reyes, J. A., Kumar, V., Maldonado-Guzmán, G., & Mangla, S. K. (2019). The adoption of operational environmental sustainability approaches in the Thai manufacturing sector. Journal of Cleaner Production, 220, 507–528.
Ravindran, B., Dinesh, S. L., Kennedy, L. J., & Sekaran, G. (2008). Vermicomposting of solid waste generated from leather industries using epigeic earthworm Eisenia foetida. Applied biochemistry and biotechnology, 151(2–3), 480–488.
Rentizelas, A., de Sousa Jabbour, A. B. L., Al Balushi, A. D., & Tuni, A. (2020). Social sustainability in the oil and gas industry: Institutional pressure and the management of sustainable supply chains. Annals of Operations Research, 290(1), 279–300.
Rezaei, J. (2015). Best-worst multi-criteria decision-making method. Omega, 53, 49–57.
Roberts, S. J. F., & Ball, P. D. (2014). Developing a library of sustainable manufacturing practices. Procedia CIRP, 15, 159–164.
Ruckert, A., Schram, A., Labonté, R., Friel, S., Gleeson, D., & Thow, A. M. (2017). Policy coherence, health and the sustainable development goals: A health impact assessment of the Trans-Pacific Partnership. Critical Public Health, 27(1), 86–96.
Saad, M. H., Nazzal, M. A., & Darras, B. M. (2019). A general framework for sustainability assessment of manufacturing processes. Ecological Indicators, 97, 211–224.
Saaty, T. L. (1980). The analytic hierarchy process, New York: Mcgrew hill. International, Translated to Russian, Portuguesses and Chinese, Revised edition, Paperback (1996, 2000), Pittsburgh: RWS Publications, 9, 19–22.
Sala, S., Ciuffo, B., & Nijkamp, P. (2015). A systemic framework for sustainability assessment. Ecological Economics, 119, 314–325.
Schau, E. M., Traverso, M., Lehmann, A., & Finkbeiner, M. (2011). Life cycle costing in sustainability assessment—A case study of remanufactured alternators. Sustainability, 3(11), 2268–2288.
Schlör, H., Fischer, W., & Hake, J. F. (2013). Methods of measuring sustainable development of the German energy sector. Applied Energy, 101, 172–181.
Shukla, O. J., Jangid, V., Siddh, M. M., Kumar, R., & Soni, G. (2017, February). Evaluating key factors of sustainable manufacturing in Indian automobile industries using Analytic Hierarchy Process (AHP). In 2017 International Conference on Advances in Mechanical, Industrial, Automation and Management Systems (AMIAMS) (pp. 42–47). IEEE.
Siahaan, A. P. U., Rahim, R., & Mesran, M. (2017). Student admission assessment using multi-objective optimisation on the basis of ratio analysis. Available at https://osf.io/cwfpu.
Singh, R. K., Murty, H. R., Gupta, S. K., & Dikshit, A. K. (2012). An overview of sustainability assessment methodologies. Ecological Indicators, 15(1), 281–299.
Singla, A., Ahuja, I. S., & Sethi, A. S. (2019). An examination of effectiveness of technology push strategies for achieving sustainable development in manufacturing industries. Journal of Science and Technology Policy Management, 10(1), 73–101.
Thirupathi, R. M., Vinodh, S., & Dhanasekaran, S. (2019). Application of system dynamics modelling for a sustainable manufacturing system of an Indian automotive component manufacturing organisation: A case study. Clean Technologies and Environmental Policy, 1–17.
Torlak, G., Sevkli, M., Sanal, M., & Zaim, S. (2011). Analysing business competition by using fuzzy TOPSIS method: An example of Turkish domestic airline industry. Expert Systems with Applications, 38(4), 3396–9406.
Venkatesh, V. G., Zhang, A., Deakins, E., Luthra, S., & Mangla, S. (2018). A fuzzy AHP-TOPSIS approach to supply partner selection in continuous aid humanitarian supply chains. Annals of Operations Research, 1–34.
Wahga, A. I., Blundel, R., & Schaefer, A. (2018). Understanding the drivers of sustainable entrepreneurial practices in Pakistan’s leather industry: A multi-level approach. International Journal of Entrepreneurial Behavior and Research, 24(2), 382–407.
Wu, S. M., You, X. Y., Liu, H. C., & Wang, L. E. (2020). Improving quality function deployment analysis with the cloud MULTIMOORA method. International Transactions in Operational Research, 27(3), 1600–1621.
Yadav, V., Sharma, M. K., & Singh, S. (2018). Intelligent evaluation of suppliers using extent fuzzy TOPSIS method: a case study of an Indian manufacturing SME. Benchmarking: An International Journal, 25(1), 259–279.
Zadeh, L. A. (1965). Fuzzy sets. Information and Control, 8(1), 338–353.
Zavadskas, E. K., Čereška, A., Matijošius, J., Rimkus, A., & Bausys, R. (2019). Internal combustion engine analysis of energy ecological parameters by neutrosophic MULTIMOORA and SWARA methods. Energies, 12(8), 1415.
Zavadskas, E. K., Stević, Ž, Tanackov, I., & Prentkovskis, O. (2018). A novel multicriteria approach–rough step-wise weight assessment ratio analysis method (R-SWARA) and its application in logistics. Studies in Informatics and Control, 27(1), 97–106.
Zhang, A., Venkatesh, V. G., Liu, Y., Wan, M., Qu, T., & Huisingh, D. (2019a). Barriers to smart waste management for a circular economy in China. Journal of Cleaner Production, 118198.
Zhang, C., Chen, C., Streimikiene, D., & Balezentis, T. (2019). Intuitionistic fuzzy MULTIMOORA approach for multi-criteria assessment of the energy storage technologies. Applied Soft Computing, 79, 410–423.
Zimmermann, H. J. (2010). Fuzzy set theory. Wiley Interdisciplinary Reviews: Computational Statistics, 2(3), 317–332.
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Appendix: Participant profile
Appendix: Participant profile
Expert number | Type of industry | Position of experts | Work experience (years) |
|---|---|---|---|
E1 | Government | Government administrator | 10 |
E2 | Research and development | Director | 15 |
E3 | Private (LPI) | Process supervisor | 12 |
sE4 | Private (LPI) | Industrial manager | 10 |
E5 | Non-governmental organisation | Public relations assistant | 8 |
E6 | Volunteer organisation | Environmentalist | 11 |
E7 | Education | Senior researcher | 10 |
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Koppiahraj, K., Bathrinath, S., Venkatesh, V.G. et al. Optimal sustainability assessment method selection: a practitioner perspective. Ann Oper Res 324, 629–662 (2023). https://doi.org/10.1007/s10479-021-03946-z
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DOI: https://doi.org/10.1007/s10479-021-03946-z