DETAIL KOLEKSI

Perancangan sistem tata udara untuk ruang isolasi pada rumah sakit

3.0


Oleh : Riana Khairunisa

Info Katalog

Penerbit : FTI - Usakti

Kota Terbit : Jakarta

Tahun Terbit : 2017

Pembimbing 1 : Senoadi

Subyek : Electric power distribution;Electric engineering

Kata Kunci : system design, air conditioning, isolation room

Status Posting : Published

Status : Tidak Lengkap


File Repositori
No. Nama File Hal. Link
1. 2017_TA_STM_061001500039_Halaman-Judul.pdf
2. 2017_TA_STM_061001500039_Lembar-Pengesahan.pdf
3. 2017_TA_STM_061001500039_Bab-1_Pendahuluan.pdf 3
4. 2017_TA_STM_061001500039_Bab-2_Tinjauan-Pustaka.pdf
5. 2017_TA_STM_061001500039_Bab-3_Metodologi-Penelitian.pdf
6. 2017_TA_STM_061001500039_Bab-4_Perancangan-Saistem.pdf 32
7. 2017_TA_STM_061001500039_Bab-5_Kesimpulan-dan-Saran.pdf
8. 2016_TA_STE_06211034_Daftar-Pustaka.pdf
9. 2016_TA_STE_06211034_Lampiran.pdf

D Dalam rangka menurunkan angka kejadian infeksi di rumah sakit, diperlukan fasilitas ruang isolasi yang bertujuan untuk perawatan pasien terinfeksi yang berbahaya. Kondisi ruangan isolasi dirancang pada 22 °C RH 50%, tekanan negatif 2.5 Pa, 100% udara luar. Metoda penelitian yang yaitu observasi kondisi bangunan, perhitungan beban pendinginan CLTDcorr, analisis psikometrik, perancangan sistem distribusi udara, dan perancangan ventilasi. Perancangan sistem tata udara menghasilkan kapasitas pendinginanj 110435.22 Btu/h (32.386 kW) dengan debit udara supply 495.82 cfm dan kapasitas pendinginan2 112012.56 Btu/h (32.848 kW) berdebit 509.53 cfm. Untuk mencapai tekanan negatif 2.5 Pa diperlukan dua unit exhaust fan 22411.08 cfm, dengan static pressure 1166.04 Pa yang menghisap udara ruang isolasi 1 dan 2 . Ruang isolasi 3 dan 4 dibutuhkan exhaust fan 22441.24 cfm, dengan static pressure 1237.05 Pa. Kebersihan udara menggunakan prefilter MERV 7, medium filter MERV 14, dan HEPA filter H12. Ketigafi/ter tersebut diaplikasikan baik unit SA maupun EA. Efisien filter partikel 0.3 micron mm > 99.97 %.

I In order to reduce the incidence of infection in hospitals, isolation room facilities are needed that aim to treat dangerous infected patients. The isolation room conditions are designed at 22 °C 50% RH, negative pressure 2.5 Pa, 100% outside air. The research methods are observing building conditions, calculating CLTDcorr cooling loads, psychometric analysis, designing air distribution systems, and designing ventilation. The design of the air conditioning system produces a cooling capacity of 110435.22 Btu/h (32,386 kW) with a supply air flow of 495.82 cfm and a cooling capacity of 112012.56 Btu/h (32.848 kW) with a flow of 509.53 cfm. To achieve a negative pressure of 2.5 Pa, two exhaust fan units of 22411.08 cfm are needed, with a static pressure of 1166.04 Pa which sucks the air in the isolation rooms 1 and 2 . Isolation rooms 3 and 4 require an exhaust fan of 22441.24 cfm, with a static pressure of 1237.05 Pa. Clean air using MERV 7 prefilter, MERV 14 medium filter, and HEPA filter H12. The three filters are applied to both SA and EA units. Efficient particle filter 0.3 micron mm > 99.97%.

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