Distribusi Kebutuhan Air Bersih Untuk Pasien COVID-19 Melalui Simulasi Epanet di RSUD Genteng Banyuwangi
I will put the dimension here
Abstract
Regional general hospital of genteng is a public health service, due to the increase in Covid-19 patients in 2020, the function of Class 1 and Isolation Building was carried out. The capacity of the two buildings is 92 people, it is necessary to ensure that water distribution is met. This study aims to simulate the distribution of clean water in Class 1 and Isolation Building of Genteng Hospital using Epanet 2.0. Determination of the number of users of Class 1 and Isolation Building using Least Square and Geometric projection methods for 9 months. Then a water distribution simulation was carried out using the Epanet 2.0 program. Simulation of 100% service water distribution resulted in a discharge requirement of 0.347 l/s in Class 1 Building with 3/4“ pipe diameter, with an average velocity of 0.55 m/s, an average headloss unit of 32.52 m/km. Simulation of water distribution for the 100% service isolation building requires a discharge of 0.406 l/s with an average velocity of 0.50 m/s, an average headloss unit of 24.84 m/km. Adding 90 users, then the service becomes 125% adding 1 bathroom unit on the 2nd floor, it takes a water discharge of 0.623 l/s, with an average velocity of 0.73 m/s, an average headloss unit of 51.02 m/km.
References
Kusumanto, Pengolahan Limbah Rumah Sakit, kumpulan makalah PPLH Universitas Gadjah Mada, Yogyakarta: Universitas Gadjah Mada, 1992.
A. Rossman Lewis, Buku Manual Program Epanet, U.S.A: EKAMITRA Engineering, 2000.
Anza, dkk., "Perancangan Sistem Plambing Air Bersih Pada Gedung Menara BRI Pekanbaru," Jom FTEKNIK Edisi 2 Juli s/d Desember 2018, p. 5, 2018.
Kusumajati, dkk, "Analisis Distribusi Air Pada Sistem Penyediaan Air Minum Kampus," e-jurnal MATRIKS TEKNIK SIPIL, p. 12, 2016.
Nugroho, dkk, "Analisa Jaringan Perpipaan Distribusi Air Bersih Menggunakan EPANET 2.0 (Studi Kasus di Kelurahan Harapan Baru, Kota Samarinda)," TEKNIK, vol. 39 (1), pp. 62-66, 2018.
Suhardiyanto, "Perancangan Sistem Plambing Instalasi Air Bersih dan Air Buangan Pada Pembangunan Gedung Perkantoran Bertingkat Tujuh Lantai," Jurnal Teknik Mesin (JTM), vol. 5, p. 02, 2016.
Tumanan, dkk, "Pengembangan Sistem Penyediaan Air Bersih Di Diesa Uuwan Kecamatan Dumoga Barat Kabupaten Bolaang Mongondow," Jurnal Sipil Statik, vol. 5, pp. 225-235, 2017.
S. M. Robial, "Perbandingan Model Statistik Pada Analisis Metode Peramalan Time Series (Studi Kasus: PT. Telekomunikasi Indonesia, Tbk Kandatel, Sukabumi)," Jurnal Ilmiah SANTIKA, vol. 8 (2), p. 9, 2 Desember 2018.
M. V. Burako, "Proyeksi Kebutuhan Air Bersih Pada Tahun 2021 di Kota Pulang Pisau Menggunakan Metode Aritmatik," Media Ilmiah Teknik Sipil (6), p. 82, 2018.
Ditjen Cipta Karya PU, Modul Proyeksi Kebutuhan Air dan Identifikasi Pola Fluktuasi Pemakaian Air, Jakarta: Ditjen Cipta Karya PU, 2018.
Sidharta, Rekayasa Lingkungan, Jakarta: Universitas Gunadarma, 1997.
B. Triatmojo, Hidraulika II, Yogyakarta: Beta Offset, 2008.
N. S. Rizal, Hidrolika, Jember: Universitas Muhammadiyah Jember, 2010.
Kementerian Pekerjaan Umum Republik Indonesia, Peraturan Menteri Pekerjaan Umum Replubik Indonesia Nomor 18 tahun 2007 tentang Penyelenggaraan Pengembangan Sistem Penyediaan Air Minum, Jakarta: http://ciptakarya.pu.go.id/dok/hukum/permen/ permen_18_2007, 2007.
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