Development of Traditional Market Garbage Bin
DOI:
https://doi.org/10.22441/pasti.2023.v17i3.006Keywords:
Attribute, Customer, Garbage, Leachate, QFD, WasteAbstract
A garbage bin is a tool for handling waste in the Demangan and Sentul markets. Garbage leachate is terrible for the environment and humans and is a location for Aedes aegypti mosquitoes to breed due to ammonia compounds in leachate. This research aims to redesign the garbage bin so that it is optimal for controlling and managing waste and minimizing its impact. The garbage bin is designed using the Quality Function Deployment method. The garbage bin design has nine attributes from the customer's voice and sixteen technical response attributes. The technical response attribute becomes the part deployment input, resulting in twenty one part specification attributes. The priority attribute divides the shelter into two parts: the organic and non-organic waste has CW=662.16. The developed garbage bin design advantages are storage space according to type, wastewater storage, and minimizing waste's destructive impact.
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Abadi, B., Mahdavian, S., & Fattahi, F. (2021). The waste management of fruit and vegetable in wholesale markets: Intention and behavior analysis using path analysis. Journal of Cleaner Production, 279, 123802.
Aktoba, R. (2017). DESAIN TEMPAT SAMPAH DENGAN PENDEKATAN ERGONOMI PARTISIPATORI. Universitas Islam Indonesia.
Ashraf, A. M., Imran, W., & Vechot, L. (2022). Analysis of the impact of a pandemic on the control of the process safety risk in major hazards industries using a Fault Tree Analysis approach. Journal of Loss Prevention in the Process Industries, 74, 104649.
Bhambore, N., & Kumar, M. S. (2022). Municipal solid waste generation, management scenarios, and leachate treatment using sequencing batch biofilter granular reactor. Process Safety and Environmental Protection.
Bolar, A. A., Tesfamariam, S., & Sadiq, R. (2017). Framework for prioritizing infrastructure user expectations using Quality Function Deployment (QFD). International Journal of Sustainable Built Environment, 6(1), 16–29.
Dewi, P. P., Jazuli, & Setyaningrum, R. (2015). PRANCANG BANGUN MODIFIKASI TEMPAT SAMPAH KERTAS MENGGUNAKAN PENDEKATAN KANO MODEL DAN METODE QUALITY FUNCTION DEPLOYMENT (QFD). Eprints.Dinus.Ac.Id. http://eprints.dinus.ac.id/17518/1/jurnal_16307.pdf
Fitriani, A., Purnomo, H., & others. (2018). Perancangan dan Pengembangan Bed Shower Menggunakan Metode Quality Function Deployment (QFD) Berdasarkan Prinsip Ergonomi. Jurnal Sistem Dan Manajemen Industri, 2(2), 85.
Hartono, M. (2018). Indonesian anthropometry update for special populations incorporating Drillis and Contini revisited. International Journal of Industrial Ergonomics, 64, 89–101.
Kamvysi, K., Andronikidis, A., Georgiou, A. C., & Gotzamani, K. (2023). A quality function deployment framework for service strategy planning. Journal of Retailing and Consumer Services, 73, 103343.
Lestariningsih, S., & Jono, J. (2019). PENGGUNAAN METODE QUALITY FUNCTION DEPLOYMENT (QFD) DALAM REDESAIN KOMPOR BATIK ELEKTRIK †œKOMBATRIKâ€. Jurnal Rekayasa Industri (JRI), 1(1).
Liu, T.-K., Chang, H., & Chen, Y.-S. (2023). Public awareness of marine environmental quality and its relationship for policy support on marine waste management. Marine Pollution Bulletin, 195, 115456.
Musthofa, N. H., Suhardi, B., & Astuti, R. D. (2015). Perancangan Desain Tempat Sampah Dengan Metode QFD Di Universitas Sebelas Maret. Prosiding SNST Fakultas Teknik, 1(1).
Nurzaman, G. (2018). Rancang Bangun Mesin Perontok Padi Menggunakan Metode Nordic Body Map (NBM) Dan Pendekatan Antropometri. 2(2), 48–52.
Nyirenda, J., & Mwansa, P. M. (2022). Impact of leachate on quality of ground water around Chunga Landfill, Lusaka, Zambia and possible health risks. Heliyon, 8(12).
Ocampo, L. A., Labrador, J. J. T., Jumao-as, A. M. B., & Rama, A. M. O. (2020). Integrated multiphase sustainable product design with a hybrid quality function deployment--multi-attribute decision-making (QFD-MADM) framework. Sustainable Production and Consumption, 24, 62–78.
Rahardjo, A. P., Suraidi, S., & Utama, H. S. (2018). Perancangan Tempat Sampah Pembuka Tutup Otomatis dan Indikator Kapasitas. TESLA: Jurnal Teknik Elektro, 19(2), 133–145.
Rohmah, W. G., Rasyidah, F., Deoranto, P., & others. (2018). KAJIAN PERBAIKAN MUTU KERIPIK TEMPE DENGAN PENDEKATAN QUALITY FUNCTION DEPLOYMENT. PROCEEDINGS OF NATIONAL COLLOQUIUM RESEARCH AND COMMUNITY SERVICE, 2.
Saleh, A. R. (2017). Rancang Bangun Mesin Pengiris Ubi Kayu menggunakan Pendekatan Nordic Body Map (NBM) dan Pendekatan Antropometri. Jurnal TIN Universitas Tanjungpura, 1(2).
Shang, K.-C., Huang, S. T., Buchari, E., Lirn, T.-C., & Della, R. H. (2023). Integration of safety quality function deployment in ferry services: Empirical study of Indonesia. Research in Transportation Business & Management, 47, 100938.
Sumargo, B. (2020). Teknik sampling. Unj press.
Syreyshchikova, N. V., Pimenov, D. Y., Yaroslavova, E. N., Gupta, M. K., Sharma, S., & Giasin, K. (2021). Product quality planning in laser metal processing based on open innovation using quality function deployment. Journal of Open Innovation: Technology, Market, and Complexity, 7(4), 240.
Tarwaka, B. (2014). Ergonomi Industri: Dasar-Dasar Ergonomi dan Implementasi di Tempat Kerja. Surakarta: Harapan Press.
Ul’fah Hernaeny, M. P. (2021). POPULASI DAN SAMPEL. Pengantar Statistika 1, 33.
Uma, S. (2006). Research Methods For Business (Metode Penelitian untuk Bisnis). Edisi Empat Buku, 1.
Wibowo, S. A., & Purnomo, H. (2017). Desain produk jemuran anti hujan menggunakan metode quality function deployment (QFD). Sinergi, 21(2), 141–148.
Wicaksaningtyas, S., Muchlis, M., & Yudiarti, D. (2019). Perancangan Alat Penampung Dan Pendistribusian Sampah Di Taman Lansia Pada Aspek Ergonomi. EProceedings of Art & Design, 6(2).
Widiyanti, W. (2020). Pengaruh Kemanfaatan, Kemudahan Penggunaan dan Promosi terhadap Keputusan Penggunaan E-Wallet OVO di Depok. Moneter-Jurnal Akuntansi Dan Keuangan, 7(1), 54–68.
Xiao, J., & Wang, X. (2024). An optimization method for handling incomplete and conflicting opinions in quality function deployment based on consistency and consensus reaching process. Computers & Industrial Engineering, 187, 109779.
Yan, J., Luo, W., Wang, J., Yang, W., Ma, Y., Jiang, D., & Jia, J. (2022). Application of the quality function deployment method in the mechanical structure design of subsea power devices. Ocean Engineering, 247, 110536.
ZHANG, L., Zhidong, C., Rui, C., Sijia, Z. H. U., Jinna, L. I. N., & Pei, T. A. I. (2023). Compressive strength of fly ash based geopolymer utilizing waste completely decomposed granite. Case Studies in Construction Materials, 19, e02667.
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