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Abstract

The freshness of vegetables cannot always be sustained because vegetables are one of the perishable horticultural products. The decline of freshness of these vegetables is due to physical, chemical, and physiological factors which appear naturally after the harvesting process. To ensure the freshness of vegetables when distributed, refrigerated containers were designed in this study by combining the Quality Function Deployment (QFD) and Teoriya Reshenia Izobretatelskikh Zadatch (TRIZ). To get the voice of customer as the main input in the QFD method, interviews were conducted to 10 vegetable producers in Indonesia as potential consumers of designed refrigerated container products. Contradictions that arise between several technical responses in QFD are resolved by the TRIZ method. As the final result, this study recommends 12 target specifications that can be implemented on the prototype of the designed refrigerated container.

Article Details

How to Cite
Dewi, R., Rusdiansyah, A., & Herdiansyah, F. (2020). Perancangan Kontainer Berpendingin pada Sepeda Motor dengan Metoda QFD dan TRIZ. INVOTEK: Jurnal Inovasi Vokasional Dan Teknologi, 20(1), 13-26. https://doi.org/https://doi.org/10.24036/invotek.v20i1.752

References

  1. [1] Aswatini, Noveria, M., & Fitranita. (2008). Konsummsi Sayur Dan Buah Di Masyarakat Dalam Konteks Pemenuhan Gizi Seimbang. Jurnal Kependudukan Indonesia, Ill(2), 97–119. https://doi.org/bhp270[pii]\r10.1093/cercor/bhp270
  2. [2] BPS-Statistics Indonesia. (2017). Statistik Tanaman Sayuran dan Buah‐buahan Semusim Indonesia 2017.
  3. [3] Samad, M. Y. (2006). Pengaruh Penanganan Pasca Panen Terhadap Mutu Komoditas Hortikultura. Jurnal Sains dan Teknologi Indonesia, 8(1), 31–36. Diakses dari https://media.neliti.com/media/publications/131290-ID-pengaruh-penanganan-pasca-panen-terhadap.pdf
  4. [4] Fauziah. (2010). Kemasan Serta Lama Penyimpanan Terhadap Karakteristik. Teknologi Pangan Fakultas Teknik Universitas Pasundan Bandung, 11(30), 1–42.
  5. [5] Wills, R. B. (2015). Low ethylene technology in non-optimal storage temperatures. Advances in postharvest fruit and vegetable technology, 167-190.
  6. [6] Rahmat, M. R. (2015). Perancangan Cold Storage Untuk Produk Reagen. Jurnal Imiah Teknik Mesin Februari Universitas Islam, 3(4516), 16–30.
  7. [7] Akao, Y. (1990). Quality function deployment : integrating customer requirements into product design. Oregon: Productivity Press.
  8. [8] Sullivan, L. P. (1986). Quality function deployment. Quality Progress (ASQC), 39-50.
  9. [9] Chan, L. K., & Wu, M. L. (2002). Quality function deployment: A literature review. European journal of operational research, 143(3), 463-497.
  10. [10] Yeh, C. H., Huang, J. C., & Yu, C. K. (2011). Integration of four-phase QFD and TRIZ in product R&D: a notebook case study. Research in Engineering Design, 22(3), 125-141.
  11. [11] Rantanen, K., Conley, D. W., & Domb, E. R. (2017). Simplified TRIZ: New Problem Solving Applications for Technical and Business Professionals. Productivity Press.
  12. [12] Franceschini, F., & Terzago, M. (1998). An application of quality function deployment to industrial training courses. International Journal of Quality & Reliability Management.
  13. [13] Marson, E., & Sartor, M. (2019). Quality Function Deployment (QFD). Quality Management: Tools, Methods, and Standards, Emerald Publishing Limited, 77-90.
  14. [14] Hipple, J. (2003). What is TRIZ and How can it be used in Problem Solving or Brainstorming? Diakses dari https://innovationmanagement.se/imtool-articles/what-is-triz-and-how-can-it-be-used-in-problem-solving-or-brainstorming/
  15. [15] Oxford Creativity. (2019). What is TRIZ? Diakses dari https://www.triz.co.uk/what-is-triz
  16. [16] Retnari, D., Velahyati, A., & Hartati. (2011). Desain Backpack Berdasarkan Analisis Biomekanika dengan Pendekatan QFD dan TRIZ untuk Pendaki Wanita. Hasil Penelitian Fakultas Teknik, Grup Teknik Mesin, universitas Hasanuddin, Vol. 5, pp. 1-12, 2011.
  17. [17] Soewardi, H., & Mujahidi, M.F. (2016). Chapter 9 Design of The Innovative Clothes Dryer by using “ TRIZ ” Approach. Diakses dari https://www.semanticscholar.org/paper/Chapter-9-Design-of-The-Innovative-Clothes-Dryer-by-Soewardi-Mujahidi/ec9a7dea63a2f8909e7fa9194e1571be0b10cd7d
  18. [18] Stratton, R., Mann, D., & Otterson, P. (2000). The Theory of Inventive Problem Solving (TRIZ) and Systematic Innovation-a Missing Link in Engineering Education?. TRIZ Journal. http://www.systematic-innovation.com.
  19. [19] Miller, T. D., & Elgard, P. (1998). Defining modules, modularity and modularization. In Proceedings of the 13th IPS research seminar, Fuglsoe. Aalborg Universiy Fuglsoe.
  20. [20] Mann, D. (2018). Getting The Best Out Of The Contradiction Matrix. The TRIZ Journal. https://triz-journal.com/getting-the-best-out-of-the-contradiction-matrix/
  21. [21] Sidanta, G. K., Budiawan, W., & Sriyanto, S. (2016). Redesain Alat Bantu Pres Tahu dengan Menggunakan Metode Quality Function Deployment (QFD) dan Teorija Rezhenija Izobretatelskih Zadach (Triz)(Studi Kasus: CV. Sumber Rejeki, Lampung). Industrial Engineering Online Journal, 5(3).
  22. [22] Siregar, K., Ginting, R., & Siregar, I. (2018). Penyusunan Kebutuhan Perancangan Mesin Hemodialisis Menggunakan Kansei Engineering Serta Aplikasi QFD dan TRIZ. Media Teknika, 12(1).
  23. [23] Sulaiman, F. (2012). Aplikasi Quality Function Deployment (QFD) Dan Teoriya Resheniya Izobretatelskikh Zadatch (TRIZ) Untuk Meningkatkan Mutu Pelayanan jasa Pendidikan (Studi Kasus SMP Swasta An-Nizam Medan).