Sürdürülebilir Bir Çevre İçin Yeniden Üretim: Bir Literatür İncelemesi
Year 2020,
Volume: 3 Issue: 2, 18 - 26, 30.12.2020
Hatice Güner
,
Ali Rıza Güner
Abstract
Yeniden üretim, çevresel ve ekonomik sürdürülebilir kalkınma hedeflerine ulaşmayı sağlayacak bir üretim sistemidir. Ancak böyle bir sisteme geçebilmek için yeniden üretilebilmeyi kolay kılacak ürün tasarımı, kullanılmış ürünlerin müşterilerden ne şekilde toplanacağı, üretim planlama ve kontrolünün nasıl yapılacağı gibi birçok meseleyi düşünmek ve planlamak gerekmektedir. Bu literatür araştırmasında yeniden üretim alanında yapılacak çalışmalara ışık tutmak amacıyla 2020 yılına kadar bu konuyla ilgili yazılmış makale ve tezler incelenmiştir. Yeniden üretim uygulamalarının Türkiye’deki durumuna da dikkat çekilmiştir.
References
- [1] Aksoy, H. M. (2014). Elektrik elektronik sektöründe yeşil tedarik zinciri ile atık yönetimi (Yüksek Lısans Tezi, İTÜ Fen Bilimleri Enstitüsü).
- [2] Arsu, T., & Özdemir, A. (2019). Hedef Programlama ve Analitik Hiyerarşi Prosesi (AHP) ile Yeniden Üretim Sistemlerinin Stok Kontrolünün İncelenmesi. Afyon Kocatepe Üniversitesi Sosyal Bilimler Dergisi, 21(4), 1230-1245.
- [3] Atık elektrikli ve elektronik eşyalar (AEEE) kontrolü yönetmeliği. (2012). Resmi Gazete. Alındığı tarih: 10.11.2020, adres: https://www.resmigazete.gov.tr/eskiler/2012/05/20120522-5.htm
- [4] Ayres, R., Ferrer, G., & Van Leynseele, T. (1997). Eco-efficiency, asset recovery and remanufacturing. European Management Journal, 15(5), 557-574.
- [5] Berko-Boateng, V., Azar, J., De Jong, E., & Yander, G. A. (1993, May). Asset cycle management-a total approach to product design for the environment. In Proceedings of the 1993 IEEE International Symposium on Electronics and the Environment (pp. 19-31). IEEE.
- [6] Boorsma, N., Balkenende, R., Bakker, C., Tsui, T., & Peck, D. (2020). Incorporating design for remanufacturing in the early design stage: a design management perspective. Journal of Remanufacturing, 1-24.
- [7] Demirel, N. Ö., & Gökçen, H. (2008). Geri kazanımlı imalat sistemleri için lojistik ağı tasarımı: literatür araştırması. Journal of the Faculty of Engineering & Architecture of Gazi University, 23(4).
- [8] Ferrer, G., & Whybark, D. C. (2001). Material planning for a remanufacturing facility. Production and Operations Management, 10(2), 112-124.
- [9] Galbreth, M. R., & Blackburn, J. D. (2006). Optimal acquisition and sorting policies for remanufacturing. Production and Operations Management, 15(3), 384-392.
- [10] Gelmez, E. (2013). Ters tedarik zinciri yönetimi bağlamında yeniden üretim uygulamaları: Konya otomotiv yan sanayi örneği (Yüksek Lısans Tezi, Selçuk Üniversitesi Sosyal Bilimler Enstitüsü).
- [11] Giuntini, R., & Gaudette, K. (2003). Remanufacturing: The next great opportunity for boosting US productivity. Business Horizons, 46(6), 41-48.
- [12] Goodall, P., Sharpe, R., & West, A. (2019). A data-driven simulation to support remanufacturing operations. Computers in Industry, 105, 48-60.
- [13] Guide Jr, V. D. R. (2000). Production planning and control for remanufacturing: industry practice and research needs. Journal of operations Management, 18(4), 467-483.
- [14] Gürler, İ. (2010). Yeniden üretim sürecinde tasarım, planlama, lojistik faaliyetlerinin incelenmesi ve Türkiye açısından değerlendirilmesi (Doctoral dissertation, DEÜ Sosyal Bilimleri Enstitüsü).
- [15] Hatcher, G. D., Ijomah, W. L., & Windmill, J. F. C. (2011). Design for remanufacture: a literature review and future research needs. Journal of Cleaner Production, 19(17-18), 2004-2014.
- [16] Haziri, L. L., & Sundin, E. (2019). Supporting design for remanufacturing-A framework for implementing information feedback from remanufacturing to product design. Journal of Remanufacturing, 1-20.
- [17] Ilgin, M. A., & Gupta, S. M. (2010). Environmentally conscious manufacturing and product recovery (ECMPRO): A review of the state of the art. Journal of environmental management, 91(3), 563-591.
- [18] Jayaraman, V., Guide Jr, V. D. R., & Srivastava, R. (1999). A closed-loop logistics model for remanufacturing. Journal of the operational research society, 50(5), 497-508.
- [19] Jiang, Z., Ding, Z., Zhang, H., Cai, W., & Liu, Y. (2019). Data-driven ecological performance evaluation for remanufacturing process. Energy Conversion and Management, 198, 111844.
- [20] Karaçay, A. G. G. (2005). Tersine lojistik: Kavram ve işleyiş. Çukurova Üniversitesi Sosyal Bilimler Enstitüsü Dergisi, 14(1), 317-332.
- [21] Kerr, W., & Ryan, C. (2001). Eco-efficiency gains from remanufacturing: A case study of photocopier remanufacturing at Fuji Xerox Australia. Journal of cleaner production, 9(1), 75-81.
- [22] Koetz, A. L., Klippel, M., & Pampanelli, A. B. (2004, APRIL). Reverse Logistic and Remanufacturing in automotive industry: the GKN Brazil Case. In Second World Conf. POM 15th Annu. POM Conf (No. 2).
- [23] Kurilova-Palisaitiene, J., Sundin, E., & Poksinska, B. (2018). Remanufacturing challenges and possible lean improvements. Journal of Cleaner Production, 172, 3225-3236.
- [24] Lee, C. M., Woo, W. S., & Roh, Y. H. (2017). Remanufacturing: Trends and issues. International Journal of Precision Engineering and Manufacturing-Green Technology, 4(1), 113-125.
- [25] Liu, C., Zhu, Q., Wei, F., Rao, W., Liu, J., Hu, J., & Cai, W. (2020). An integrated optimization control method for remanufacturing assembly system. Journal of Cleaner Production, 248, 119261.
- [26] Matsumoto, M., Yang, S., Martinsen, K., & Kainuma, Y. (2016). Trends and research challenges in remanufacturing. International journal of precision engineering and manufacturing-green technology, 3(1), 129-142.
- [27] Nakiboğlu, G. (2007). Tersine Lojistik: Önemi Ve Dünyadaki Uygulamalari. Gazi Universitesi Iktisadi ve Idari Bilimler Fakultesi Dergisi, 9(2).
- [28] Nasr, N., & Thurston, M. (2006). Remanufacturing: A key enabler to sustainable product systems. Rochester Institute of Technology, 15-18.
- [29] Öç, B. (2013). Sürdürülebilir tasarım: Ürün tasarımı ve üretimi temelinde malzemelerin geri dönüştürülmesi bilinci (Yüksek Lisans Tezi, İTÜ Fen Bilimleri Enstitüsü).
- [30] Reimann, M., Xiong, Y., & Zhou, Y. (2019). Managing a closed-loop supply chain with process innovation for remanufacturing. European Journal of Operational Research, 276(2), 510-518.
- [31] Savaskan, R. C., Bhattacharya, S., & Van Wassenhove, L. N. (2004). Closed-loop supply chain models with product remanufacturing. Management science, 50(2), 239-252.
- [32] Sharma, V., Garg, S. K., & Sharma, P. B. (2016). Identification of major drivers and roadblocks for remanufacturing in India. Journal of cleaner production, 112, 1882-1892.
- [33] Sitcharangsie, S., Ijomah, W., & Wong, T. C. (2019). Decision makings in key remanufacturing activities to optimise remanufacturing outcomes: a review. Journal of Cleaner Production, 232, 1465-1481.
- [34] Sundin, E. (2004). Product and process design for successful remanufacturing (Doctoral dissertation, Linköping University Electronic Press).
- [35] Tanskanen, P. (2013). Management and recycling of electronic waste. Acta materialia, 61(3), 1001-1011.
- [36] Thierry, M., Salomon, M., Van Nunen, J., & Van Wassenhove, L. (1995). Strategic issues in product recovery management. California management review, 37(2), 114-136.
- [37] Tian, G., Zhang, H., Feng, Y., Jia, H., Zhang, C., Jiang, Z. & Li, P. (2017). Operation patterns analysis of automotive components remanufacturing industry development in China. Journal of cleaner production, 164, 1363-1375.
- [38] Topoyan, M. (2005, Kasım). Yeniden üretim sistemleri için sürdürülebilir ürün tasarımlarının oluşturulması. V. Ulusal Üretim Arastırmaları Sempozyumu, İstanbul Ticaret Üniversitesi, 25-27.
- [39] Van Der Laan, E., Salomon, M., Dekker, R., & Van Wassenhove, L. (1999). Inventory control in hybrid systems with remanufacturing. Management science, 45(5), 733-747.
- [40] Yang, S. S., Ong, S. K., & Nee, A. Y. C. (2016). A decision support tool for product design for remanufacturing. Procedia CIRP, 40, 144-149.
- [41] Yüksel, H., & Çelikoğlu, C. C. (2004). Yeniden Üretim Faaliyetlerinin Planlanması ve Kontrolü İçin Bir Yöntem Önerisi. Dokuz Eylül Üniversitesi Sosyal Bilimler Enstitüsü Dergisi, 6(3), 152-166.
- [42] Zhang, H. C., Kuo, T. C., Lu, H., & Huang, S. H. (1997). Environmentally conscious design and manufacturing: a state-of-the-art survey. Journal of manufacturing systems, 16(5), 352-371.
- [43] Zlamparet, G. I., Ijomah, W., Miao, Y., Awasthi, A. K., Zeng, X., & Li, J. (2017). Remanufacturing strategies: A solution for WEEE problem. Journal of Cleaner Production, 149, 126-136.
Remanufacturing for a Sustainable Environment: A Literature Review
Year 2020,
Volume: 3 Issue: 2, 18 - 26, 30.12.2020
Hatice Güner
,
Ali Rıza Güner
Abstract
Remanufacturing is a manufacturing system that can achieve sustainable development goals both environmentally and economically. However, to be able to switch to such a system, it is necessary to consider and plan many issues such as product design that facilitates remanufacturing, gathering used products from customers, planning and control of production, and etc. In this literature research, we look into articles and theses written on this subject until 2020 in order to shed light on the studies to be done in the field of remanufacturing. Attention is drawn to the state of remanufacturing implementations in Turkey.
References
- [1] Aksoy, H. M. (2014). Elektrik elektronik sektöründe yeşil tedarik zinciri ile atık yönetimi (Yüksek Lısans Tezi, İTÜ Fen Bilimleri Enstitüsü).
- [2] Arsu, T., & Özdemir, A. (2019). Hedef Programlama ve Analitik Hiyerarşi Prosesi (AHP) ile Yeniden Üretim Sistemlerinin Stok Kontrolünün İncelenmesi. Afyon Kocatepe Üniversitesi Sosyal Bilimler Dergisi, 21(4), 1230-1245.
- [3] Atık elektrikli ve elektronik eşyalar (AEEE) kontrolü yönetmeliği. (2012). Resmi Gazete. Alındığı tarih: 10.11.2020, adres: https://www.resmigazete.gov.tr/eskiler/2012/05/20120522-5.htm
- [4] Ayres, R., Ferrer, G., & Van Leynseele, T. (1997). Eco-efficiency, asset recovery and remanufacturing. European Management Journal, 15(5), 557-574.
- [5] Berko-Boateng, V., Azar, J., De Jong, E., & Yander, G. A. (1993, May). Asset cycle management-a total approach to product design for the environment. In Proceedings of the 1993 IEEE International Symposium on Electronics and the Environment (pp. 19-31). IEEE.
- [6] Boorsma, N., Balkenende, R., Bakker, C., Tsui, T., & Peck, D. (2020). Incorporating design for remanufacturing in the early design stage: a design management perspective. Journal of Remanufacturing, 1-24.
- [7] Demirel, N. Ö., & Gökçen, H. (2008). Geri kazanımlı imalat sistemleri için lojistik ağı tasarımı: literatür araştırması. Journal of the Faculty of Engineering & Architecture of Gazi University, 23(4).
- [8] Ferrer, G., & Whybark, D. C. (2001). Material planning for a remanufacturing facility. Production and Operations Management, 10(2), 112-124.
- [9] Galbreth, M. R., & Blackburn, J. D. (2006). Optimal acquisition and sorting policies for remanufacturing. Production and Operations Management, 15(3), 384-392.
- [10] Gelmez, E. (2013). Ters tedarik zinciri yönetimi bağlamında yeniden üretim uygulamaları: Konya otomotiv yan sanayi örneği (Yüksek Lısans Tezi, Selçuk Üniversitesi Sosyal Bilimler Enstitüsü).
- [11] Giuntini, R., & Gaudette, K. (2003). Remanufacturing: The next great opportunity for boosting US productivity. Business Horizons, 46(6), 41-48.
- [12] Goodall, P., Sharpe, R., & West, A. (2019). A data-driven simulation to support remanufacturing operations. Computers in Industry, 105, 48-60.
- [13] Guide Jr, V. D. R. (2000). Production planning and control for remanufacturing: industry practice and research needs. Journal of operations Management, 18(4), 467-483.
- [14] Gürler, İ. (2010). Yeniden üretim sürecinde tasarım, planlama, lojistik faaliyetlerinin incelenmesi ve Türkiye açısından değerlendirilmesi (Doctoral dissertation, DEÜ Sosyal Bilimleri Enstitüsü).
- [15] Hatcher, G. D., Ijomah, W. L., & Windmill, J. F. C. (2011). Design for remanufacture: a literature review and future research needs. Journal of Cleaner Production, 19(17-18), 2004-2014.
- [16] Haziri, L. L., & Sundin, E. (2019). Supporting design for remanufacturing-A framework for implementing information feedback from remanufacturing to product design. Journal of Remanufacturing, 1-20.
- [17] Ilgin, M. A., & Gupta, S. M. (2010). Environmentally conscious manufacturing and product recovery (ECMPRO): A review of the state of the art. Journal of environmental management, 91(3), 563-591.
- [18] Jayaraman, V., Guide Jr, V. D. R., & Srivastava, R. (1999). A closed-loop logistics model for remanufacturing. Journal of the operational research society, 50(5), 497-508.
- [19] Jiang, Z., Ding, Z., Zhang, H., Cai, W., & Liu, Y. (2019). Data-driven ecological performance evaluation for remanufacturing process. Energy Conversion and Management, 198, 111844.
- [20] Karaçay, A. G. G. (2005). Tersine lojistik: Kavram ve işleyiş. Çukurova Üniversitesi Sosyal Bilimler Enstitüsü Dergisi, 14(1), 317-332.
- [21] Kerr, W., & Ryan, C. (2001). Eco-efficiency gains from remanufacturing: A case study of photocopier remanufacturing at Fuji Xerox Australia. Journal of cleaner production, 9(1), 75-81.
- [22] Koetz, A. L., Klippel, M., & Pampanelli, A. B. (2004, APRIL). Reverse Logistic and Remanufacturing in automotive industry: the GKN Brazil Case. In Second World Conf. POM 15th Annu. POM Conf (No. 2).
- [23] Kurilova-Palisaitiene, J., Sundin, E., & Poksinska, B. (2018). Remanufacturing challenges and possible lean improvements. Journal of Cleaner Production, 172, 3225-3236.
- [24] Lee, C. M., Woo, W. S., & Roh, Y. H. (2017). Remanufacturing: Trends and issues. International Journal of Precision Engineering and Manufacturing-Green Technology, 4(1), 113-125.
- [25] Liu, C., Zhu, Q., Wei, F., Rao, W., Liu, J., Hu, J., & Cai, W. (2020). An integrated optimization control method for remanufacturing assembly system. Journal of Cleaner Production, 248, 119261.
- [26] Matsumoto, M., Yang, S., Martinsen, K., & Kainuma, Y. (2016). Trends and research challenges in remanufacturing. International journal of precision engineering and manufacturing-green technology, 3(1), 129-142.
- [27] Nakiboğlu, G. (2007). Tersine Lojistik: Önemi Ve Dünyadaki Uygulamalari. Gazi Universitesi Iktisadi ve Idari Bilimler Fakultesi Dergisi, 9(2).
- [28] Nasr, N., & Thurston, M. (2006). Remanufacturing: A key enabler to sustainable product systems. Rochester Institute of Technology, 15-18.
- [29] Öç, B. (2013). Sürdürülebilir tasarım: Ürün tasarımı ve üretimi temelinde malzemelerin geri dönüştürülmesi bilinci (Yüksek Lisans Tezi, İTÜ Fen Bilimleri Enstitüsü).
- [30] Reimann, M., Xiong, Y., & Zhou, Y. (2019). Managing a closed-loop supply chain with process innovation for remanufacturing. European Journal of Operational Research, 276(2), 510-518.
- [31] Savaskan, R. C., Bhattacharya, S., & Van Wassenhove, L. N. (2004). Closed-loop supply chain models with product remanufacturing. Management science, 50(2), 239-252.
- [32] Sharma, V., Garg, S. K., & Sharma, P. B. (2016). Identification of major drivers and roadblocks for remanufacturing in India. Journal of cleaner production, 112, 1882-1892.
- [33] Sitcharangsie, S., Ijomah, W., & Wong, T. C. (2019). Decision makings in key remanufacturing activities to optimise remanufacturing outcomes: a review. Journal of Cleaner Production, 232, 1465-1481.
- [34] Sundin, E. (2004). Product and process design for successful remanufacturing (Doctoral dissertation, Linköping University Electronic Press).
- [35] Tanskanen, P. (2013). Management and recycling of electronic waste. Acta materialia, 61(3), 1001-1011.
- [36] Thierry, M., Salomon, M., Van Nunen, J., & Van Wassenhove, L. (1995). Strategic issues in product recovery management. California management review, 37(2), 114-136.
- [37] Tian, G., Zhang, H., Feng, Y., Jia, H., Zhang, C., Jiang, Z. & Li, P. (2017). Operation patterns analysis of automotive components remanufacturing industry development in China. Journal of cleaner production, 164, 1363-1375.
- [38] Topoyan, M. (2005, Kasım). Yeniden üretim sistemleri için sürdürülebilir ürün tasarımlarının oluşturulması. V. Ulusal Üretim Arastırmaları Sempozyumu, İstanbul Ticaret Üniversitesi, 25-27.
- [39] Van Der Laan, E., Salomon, M., Dekker, R., & Van Wassenhove, L. (1999). Inventory control in hybrid systems with remanufacturing. Management science, 45(5), 733-747.
- [40] Yang, S. S., Ong, S. K., & Nee, A. Y. C. (2016). A decision support tool for product design for remanufacturing. Procedia CIRP, 40, 144-149.
- [41] Yüksel, H., & Çelikoğlu, C. C. (2004). Yeniden Üretim Faaliyetlerinin Planlanması ve Kontrolü İçin Bir Yöntem Önerisi. Dokuz Eylül Üniversitesi Sosyal Bilimler Enstitüsü Dergisi, 6(3), 152-166.
- [42] Zhang, H. C., Kuo, T. C., Lu, H., & Huang, S. H. (1997). Environmentally conscious design and manufacturing: a state-of-the-art survey. Journal of manufacturing systems, 16(5), 352-371.
- [43] Zlamparet, G. I., Ijomah, W., Miao, Y., Awasthi, A. K., Zeng, X., & Li, J. (2017). Remanufacturing strategies: A solution for WEEE problem. Journal of Cleaner Production, 149, 126-136.