Supply Chain Analysis for Water and Sanitation Technology Research Project (Case Study in Morotai Island, North Maluku Province)

Authors

  • Dimas Hastama Nugraha Ministry of Public Works and Housing, Directorate General of Housing, Office for House Provision- Java III Region
  • Rezeki Peranginangin Peranginangin Ministry of Public Works and Housing, Development Capacity Center for Bridge, Housing and Region Infrastructure
  • Erlita Pramitaningrum Pramitaningrum Politeknik Akademi Teknologi Kulit

DOI:

https://doi.org/10.12928/si.v19i1.17906

Keywords:

supply chain management, logistics, technology

Abstract

Morotai’s sanitation and clean water technology is covering sanitation technology (bio filter, sanitary pond) and clean water (SPC, Reserve Osmose). This technology is ready to be applied in Daruba Pantai, Morotai, North Maluku and all of its technology originated from Java. Research problem’s focus on supply chain. Research objectives eager to see to what extent the supply chain of sanitation and clean water technology, from the technology producers which are mostly located in Java and the application location is in Morotai. The study of Supply Chain in Clean Water and Sanitation Technology Implementation using an applied based research approach. This study refers to scientific research and attempt to solve practical problems. The result of this study, any supply chain for four technologies in Morotai. The results consist of identifying supply chain components, determining network dimension structure that consists of three types dimension, determining type of business chain, and mapping supply chain. For the sanitation technology (bio filter), there are six certified bio filter suppliers and one of them will be selected as the supplier of the construction project in Morotai area. At the sanitary ponds technology, the constituent component/material can be retrieved from local suppliers in Morotai. For Simple Water Management Installation-Quick Sand Filter/SPC, the technology constituent component itself comprises of ground water tank, pump, roof tank, and Quick Sand Filter (made of fibre). This material is brought from the supplier named CV. Lusika in Bandung. Then, the RO technology constituent component is quite many comprising of water inlet valve, pre-filter, RO membrane, post-filter, automatic inspection valves, flow blockers, reservoir, faucet, and exhaust pipe. RO system unit is brought from the supplier called PT. Zeofilt Water Treatment that located in Bandung.

Author Biographies

Dimas Hastama Nugraha, Ministry of Public Works and Housing, Directorate General of Housing, Office for House Provision- Java III Region

Ministry of Public Works and Housing, Directorate General of Housing, Office for House Provision- Java III Region

Rezeki Peranginangin Peranginangin, Ministry of Public Works and Housing, Development Capacity Center for Bridge, Housing and Region Infrastructure

Ministry of Public Works and Housing, Development Capacity Center for Bridge, Housing and Region Infrastructure

Erlita Pramitaningrum Pramitaningrum, Politeknik Akademi Teknologi Kulit

Politeknik Negeri Akademi Teknologi Kulit Yogyakarta

References

Journal

Behera, P., Mohanty, R.P., Prakash, A. (2015). Understanding construction supply chain management. Production Planning & Control: The Management of Operations, 26(16), 1332-1350.

Hartati, M., Ernanda, E., Nohirza, F.L., Diniaty, D. (2019). Aplikasi model sistem dinamis untuk menganalisis penjualan semen X di kota X. Spektrum Industri, 17(2), 133-141.

Hartati, M., Misnadesi. (2019). Pengukuran kinerja rantai pasok UKM Kalamai Uni War menggunakan metode SCOR dan Fuzzy AHP. Spektrum Industri, 17(2), 119-132.

Kumar, N.R., Kumar, R.M.S. (2013). Closed loop supply chain management and reverse logistics-a literature review. International Journal of Engineering Research and Technology, 6(4), 455-468.

Maulani, F., Suraji, A., Istijono, B. (2014). Analisis struktur rantai pasok konstruksi pada pekerja jembatan. Jurnal Rekayasa Sipil, 10(2), 1-8.

Sutoni, A., Apipudin, I., (2019). Optimalisasi penentuan rute distribusi pupuk untuk meminimalkan biaya transportasi dengan metode Saving Matrix. Spektrum Industri, 17(2), 143-155.

Proceeding

Herdianti, P., Abduh, M. (2015). Kajian proses pengadaan subkontraktor dan supplier rantai pasok konstruksi untuk mendukung pelaksanaan bangunan hijau. Proceedings of 9th Konferensi Nasional Teknik Sipil (KoNTekS 9), Makassar, 417-424.

Podungge, M.R. (2018). Tinjauan pengelolaan rantai pasok pada industri jasa konstruksi. Proceedings of the Seminar Nasional Teknologi 2018, Jakarta, 78-83.

Texbooks

Chopra, S., Meindl, P. (2016). Supply Chain Management: Strategy, Planning, and Operation. New York: Pearson Education, Inc.

Heizer, J., Render, B. (2014). Manajemen Operasi. Jakarta: Salemba Empat.

Pusat Pendidikan dan Pelatihan Sumber Daya Air dan Konstruksi. (2017). Modul Penerapan Rantai Pasok Konstruksi di Indonesia. Bandung: Pusdiklat SDA dan Konstruksi Kementerian Pekerjaan Umum dan Perumahan Rakyat.

Rushton, A., Croucher, P., Baker, P. (2014). The Handbook of Logistics and Distribution Management: Understanding the Supply Chain. New Delhi: Kogan Page.

Thesis/Disertation

Thunberg, M. (2016). Developing a framework for supply chain planning in construction. Disertation. Linköping: Linköping University.

Downloads

Published

2021-04-29

Issue

Vol. 19 No. 1: April 2021

Section

Logistic and Supply Chain Management

License

Creative Commons License
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.