The conceptual model to improve failure risk management water distribution system using ordinary differential equation model to support water resilience in military residential facilities

Fulkan Kafilah Al Husein; Muhamad Syazali; Suhaila Saidat; Nursyiva Irsalinda; Fajri Farid

doi:10.58524/app.sci.def..v2i3.341

Authors

Fulkan Kafilah Al Husein Indonesia Defense University
Muhamad Syazali Indonesia Defense University
Suhaila Saidat Irbid National University
Nursyiva Irsalinda Universiti Malaysia Terengganu
Fajri Farid Institut Teknologi Sumatera

DOI:

https://doi.org/10.58524/app.sci.def..v2i3.341

Keywords:

Distribution, Failure, Model, Resilience, Water,

Abstract

Water resilience is still big problem in Indonesia. In border and underdeveloped areas in Indonesia, the use of water sources is still considered not resilience. Especially in military context, where water needs are bigger and also more fundamental, this water resilience problem demanding a comprehensive solution. To address this issue, this research proposes the use of ordinary differential equations as a mathematical tool to model the dynamics of system damage over time, consumption, maintenance scheme, water crisis scheme, and other factors affecting water distribution resilience in military facilities. This journal presents a conceptual model of failure risk management water distribution system using a differential equation model approach to support water resilience. Specifically, the derivation of failure equation in the “reliability and maintenance system technical” textbook will be the basic reference for generating mathematical model. It is used because our model will be focused in improving failure risk management. By using the model, there are a lot of problem will be tackled such as Identify and manage failure risks in the water supply system, design an efficient water distribution maintenance scheme, and predict how strong the system to face water crisis. But before the model applied, the prediction of model will be tested by applying it in form of computer program. The case study of this research will be focused in testing the model in form of computer program with some simplicity and assumption. Through this approach, it is expected to find solutions that improve water usage efficiency, support the well-being of military personnel, and contribute to national water resilience to bolster national defense especially in case of water crisis happened. This research holds significant benefits for scientific advancement by providing a conceptual model that can serve as a reference for future research. It has the potential to make a tangible contribution but also still need so much development especially for application in real data, adding others variables that can be included for next research, conducting the interpretation, and better defining the measurement boundaries.

Author Biography

Fulkan Kafilah Al Husein, Indonesia Defense University

Military Mathemathics, student

References

Achour, B., & Amara, L. (2020). New formulation of the Darcy-Weisbach friction factor. LARHYSS Journal, 43, 13-22.

Aisyiyah, A. A. (2023). Solusi eksak model persamaan diferensial biasa sistem imun terhadap virus Ebola (Disertasi). Universitas Islam Negeri Maulana Malik Ibrahim Malang.

Arto, R. S., Prakoso, L. Y., & Sianturi, D. (2021). Strategi pertahanan laut Indonesia dalam perspektif maritim menghadapi globalisasi. Jurnal Strategi Pertahanan Laut, 5(2). https://doi.org/10.33172/spl.v5i2.644

Astuti, R., & Suhardi, D. (2022). Study of planning for rural clean water facilities and infrastructure using EPANET 2.0 software (case study: Kedungwungu Village, Binangun Sub District). Seminar Keinsinyuran Program Studi Program Profesi Insinyur, 2(1). https://doi.ord/10.22219/skpsppi.v3i1.4987

Asuma, D., et al. (2021). Smart metering berbasis IoT untuk perhitungan biaya penggunaan air. E-Proceeding of Engineering, 8(2), 1090–1101.

Bagusrama, H. A., & Syafera, T. (2023). Penerapan sustainable water management sebagai solusi pengoptimalan pengelolaan air pada kawasan pemukiman (studi kasus di Perumahan Beringin Asri, Ngaliyan, Semarang, Jawa Tengah). Envirous, 3(2). https://doi.org/10.33005/envirous.v3i2.23

Brahmanja, B. (2014). Prediksi jumlah kebutuhan air bersih BPAP Unit Dalu-Salu 5 tahun mendatang (2018) Kecamatan Tambusai Kabupaten Rakun Hulu (Skripsi). Universitas Pasir Pengaraian, Riau.

de Lambert, S., Cardolaccia, J., Faucher, V., Thomine, O., Leturcq, B., & Campioni, G. (2021). Semi-analytical modeling of the flow redistribution upstream from the mixing grids in a context of nuclear fuel assembly bow. Nuclear Engineering and Design, 371, 11-40. http://dx.doi.org/10.1016/j.nucengdes.2020.110940

Ebeling, C. E. (2003). An Introduction to Reliability and Maintainability Engineering. McGraw Hill.

Efendi, R., & Sagita, D. (2021). Penerapan sistem persamaan diferensial linier pada simulasi debit air pada pipa. JMPM (Jurnal Material dan Proses Manufaktur), 5(1), 10-17. https://doi.org/10.18196/jmpm.v5i1.12081

Faqih, A. H. (2023). Upaya pemenuhan hak asuh anak di lingkungan keluarga militer (studi kasus di keluarga Batalyon YONIF RAIDER 509 KOSTRAD Kabupaten Jember) (Disertasi). UIN KH Achmad Siddiq Jember.

Fatimah. (2007). Simulasi model transpor fosfor pada aliran sungai menggunakan persamaan diferensial orde satu. Jurnal Teknologi Proses: Media Publikasi Karya Ilmiah Kimia, 6(1), 10-16.

Hariyani, S., & Agustin, I. W. (2020). Transportasi Air: Penunjang Keberlanjutan Suatu Negara. Universitas Brawijaya Press.

Ikhtiar, A. R. (2023). Pengaruh turbulence generator terhadap daya bulb turbine pada aliran kecepatan rendah menggunakan computational fluid dynamics (Disertasi). Universitas Pertamina.

Jannah, U., & Muchlisoh, S. (2020). Pembentukan indeks ketahanan air rumah tangga di Indonesia menurut lima aspek ketahanan air UN-Water tahun 2018. Seminar Nasional Official Statistics, 2020(1), 1081-1093. https://doi.org/10.34123/semnasoffstat.v2020i1.596

Juwono, P. T., Subagiyo, A., & Winarta, B. (2022). Neraca Sumber Daya Air dan Ruang Kota Berkelanjutan. Universitas Brawijaya Press.

Kamaruddin, I., et al. (2022). Pendidikan Jasmani dan Olahraga. Get Press.

Kaushik, M. (2019). Governing equations of fluid flows. In Theoretical and Experimental Aerodynamics, 57-106. Springer Singapore. https://doi.org/10.1007/978-981-13-1678-4

Koeriyanto. (2023). Program cegah dehidrasi terhadap penurunan kejadian dehidrasi pada prajurit KRI Pulau Raas 722 SATRAN KOARMADA II. JIK: Jurnal Ilmu Keperawatan, 1(1), 68-76. https://doi.org/10.33172/spl.v8i1.1038

Lestari, F., Susanto, T., & Kastamto, K. (2021). Pemanenan air hujan sebagai penyediaan air bersih pada era new normal di kelurahan susunan baru. Selaparang: Jurnal Pengabdian Masyarakat Berkemajuan, 4(2), 427-434. https://doi.org/10.31764/jpmb.v4i2.4447

Martani, W. R., Sumertha, I. G., & Hidayat, E. R. (2020). Peran Standby Force Pusat Misi Pemeliharaan Perdamaian Tentara Nasional Indonesia (PMPP TNI) dalam mempersiapkan pasukan pada misi pemeliharaan perdamaian. Jurnal Diplomasi Pertahanan, 6(1). https://doi.org/10.33172/jdp.v6i1.589

Mashaly, A. F., & Fernald, A. G. (2020). Identifying capabilities and potentials of system dynamics in hydrology and water resources as a promising modeling approach for water management. Water, 12(5), 1432. https://doi.org/10.3390/w12051432

Mulyono, P. F., & Putro, H. (2019). Analisis ketahanan air di kota Ternate Provinsi Maluku Utara. Jurnal Teknik Pengairan: Journal of Water Resources Engineering, 10(2), 120-125. https://doi.org/10.21776/ub.pengairan.2019.010.02.05

Nadwah, H. Q. (2019). Penentuan harga opsi basket tipe Eropa berdasarkan model Black-Scholes (Disertasi). Institut Teknologi Sepuluh Nopember.

Nursyanti, Y. (2023). Optimasi persediaan dengan pendekatan deterministik dinamis pada industri manufaktur. Jurnal Teknologi dan Manajemen Industri Terapan, 2(1), 8-18. https://doi.org/10.55826/tmit.v2iI.83

Parawangsa, J., & Lestari, R. F. (2022). Sosialisasi Internet of Things (IoT) pada kran air sebagai upaya meminimalisir interaksi personal hygiene. TEKIBA: Jurnal Teknologi dan Pengabdian Masyarakat, 2(1), 19-22. https://doi.org/10.36526/tekiba.v2i1.1580

Prakoso, I. A. (2021). Sistem monitoring pencemaran air dan peringatan dini banjir berdasarkan ketinggian air berbasis Internet of Things (Skripsi). Universitas Muhammadiyah Surakarta. http://eprints.ums.ac.id/id/eprint/95065

Radhakrishnan, K. T., Poelma, C., Lier, J., & Clemens, F. (2021). Laminar-turbulent transition of a non-Newtonian fluid flow. Journal of Hydraulic Research, 59(2), 235-249. https://doi.org/10.1080/00221686.2020.1770876

Raming, I., & Hermansyah, H. (2023). Pengantar Persamaan Differensial Parsial (PDP) (Vol. 1). CV. Mitra Cendekia Media.

Rehman, R., Aslam, M. S., Jasinska, E., Javed, M. F., & Gono, M. (2023). Guidelines for the technical sustainability evaluation of the urban drinking water systems based on analytic hierarchy process. Resources, 12(1), 1-26. https://doi.org/10.3390/resources12010008

Renn, O., Laubichler, M., Lucas, K., Kröger, W., Schanze, J., Scholz, R. W., & Schweizer, P. J. (2022). Systemic risks from different perspectives. Risk Analysis, 42(9), 1902-1920. https://doi.org/10.1111/risa.13657

Rizkayanti, S. (2020). Transformasi Double Laplace untuk penyelesaian persamaan diferensial parsial (Disertasi). Universitas Islam Negeri Maulana Malik Ibrahim.

Roziqin, R. H. (2023). Solusi analitik persamaan adveksi-dispersi dengan pendekatan Sturm-Liouville (Disertasi). Universitas Islam Negeri Maulana Malik Ibrahim.

Salma, A., Cahyadi, T. A., Kresno, Hartono, Wiyono, B., & Ariyanto, D. J. (2022). Pemodelan airtanah menggunakan metode beda hingga pada pra penambangan batubara di Rawas Ilir, Kabupaten Musi Rawas Utara, Sumatra Selatan. Jurnal Mineral, Energi, dan Lingkungan, 5(2), 43-50. https://doi.org/10.31315/jmel.v5i2.5582

Sasongko, N. A., Octavian, A., Marsetio, & Laksmono, R. (2019). Pemanfaatan teknologi energi surya dalam memenuhi kebutuhan air bersih di markas TNI perbatasan maritim: Studi di Pos TNI AL, Labuan Bajo, Nusa Tenggara Timur. Jurnal Pertahanan & Bela Negara, 9(1), 45-70. https://doi.org/10.33172/jpbh.v9i1.499

Satria, A. (2021). Optimalisasi sistem algoritma statis dan dinamis dalam batch flow shop pada pengeluaran biaya dan penjadwalan produksi part number ekskavator di industri pemotongan logam (Skripsi). Fakultas Sains dan Teknologi UIN Syarif Hidayatullah Jakarta.

Sinaga, L. P., Kartika, D., & Nasution, H. (2021). Pengantar Sistem Dinamik. Amal Insani Publisher.

Siswanto, D. J., MI SE, & Tegor, S. E. (2021). Manajemen Teritorial. Deepublish.

Sukarta, L., Bayu, E., et al. (2021). Smart Automatic Water Filler (SAWF) berbasis Internet of Things. JITTER: Jurnal Ilmiah Teknologi dan Komputer, 2(2). https://ojs.unud.ac.id/index.php/jitter/article/view/76182

Sulistyo, I., Gita, K., & Wiranata, I. J. (2022). Strategi pemerintah kota Bandar Lampung-Indonesia terkait perubahan iklim pada 2015-2020. Jurnal Hubungan Internasional Indonesia, 4(1), 67-90. http://jhii.fisip.unila.ac.id/ojs/index.php/jhii

Suoth, A. E. (2018). Pola konsumsi air pada perumahan teratur: Studi kasus konsumsi air di perumahan Griya Serpong Tangerang Selatan. Jurnal Ecolab, 12(2), 62-70. https://doi.org/10.20886/jklh.2018.12.2.62-70

Surindra, M. D. (2021). Studi analisis sistem fisik thermal dengan pemodelan stirred tank heater menggunakan Simulink Matlab. Eksergi, 17(1), 57-66. https://doi.org/10.32497/eksergi.v17i1.2282

Sutrisno, N., & Hamdani, A. (2019). Optimalisasi pemanfaatan sumber daya air untuk meningkatkan produksi pertanian. Jurnal Sumberdaya Lahan, 13(2), 73-88. http://dx.doi.org/10.21082/jsdl.v13n2.2019.73-88

Syarifudin, P. D. A., Fadelan, & Kurniawan, A. (2023). Pengaruh pemenuhan perumahan dinas prajurit terhadap kesiapsiagaan operasional BRIGIF 4 MARINIR/BS. Scientific Journal of Reflection: Economic, Accounting, Management and Business, 6(2), 261-270. https://doi.org/10.37481/sjr.v6i2.649

Trijayanti, H., & Cahyadi, T. A. (2022). Aplikasi penggunaan metode finite difference dalam pemodelan air tanah pada kasus pertambangan: Literatur review. Jurnal Himasapta, 7(1), 21-26. https://doi.org/10.20527/jhs.v7i1.5340

Wahyu Santoso, E. (2022). Sistem deteksi kebocoran area pipa air berbasis IoT (Disertasi). Universitas Islam Sultan Agung Semarang.

Wardani, A. M., Pratama, B., Herlianna, C. D., Pratama, D. O., Janah, H. N. M., Soliha, M., & Faizah, U. N. (2021). Konservasi sumber daya air guna terjaganya kualitas serta entitas air baku. PISCES: Proceeding of Integrative Science Education Seminar, 1(1). https://prosiding.iainponorogo.ac.id/index.php/pisces/article/view/150

Wicaksono, R. R., Putri, M. S. A., Sulistiono, E., Ismarina, Hanif, M., Aniriani, G. W., Prasidya, D. A., Syakbanah., L. N., Rifandhana, R. F., & Ikhlasiah, M. (2023). Manajemen Kesehatan Lingkungan. Cendikia Mulia Mandiri.

Zhang, X., Ma, F., Yin, S., Wallace, C. D., Soltanian, M. R., Dai, Z., Tirzi, R. W., Ma, Z., Zhan, C., & Lu, X.. (2021). Application of upscaling methods for fluid flow and mass transport in multi-scale heterogeneous media: A critical review. Applied Energy, 303, 117603. https://doi.org/10.1016/j.apenergy.2021.117603

The conceptual model to improve failure risk management water distribution system using ordinary differential equation model to support water resilience in military residential facilities

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