| Bahan Kajian | - Pendahuluan: Peran air dalam kehidupan, sekilas aspek kuantitas dan kualitas air, komponen pokok dalam sistem penyediaan air minum, proyeksi/estimasi kebutuhan air minum, termasuk pengenalan NRW (non-revenue water) dalam sistem penyediaan air minum.
- Peraturan yang barlaku dalam sistem penyediaan air minum, termasuk Perencanaan Jakstra dan RISPAM
- Sumber air baku air minum: Jenis, kualitas, kuantitas dan fluktuasi sumber air baku: air permukaan, air tanah, keunggulan dan kelemahan tiap sumber air baku air minum, perencanaan bangunan intake air baku, gambar standar bangunan intake air permukaan
- Perbedaan kualitas air baku air minum dan konsep pengolahan masing-masing jenis air baku
- Pengantar sistem transmisi: Definisi dan urgensi sistem transmisi, perencanaan jalur pipa/saluran transmisi, pemilihan saluran atau jenis pipa sistem transmisi, debit pengaliran : debit rata-rata, debit maksimum harian
- Aspek hidrolis dan bangunan/ alat yang terkait dalam sistem transmisi: Jenis pengaliran sistem transmisi: gravitasi dan pemompaan, perhitungan dimensi pipa transmisi, kebutuhan tekanan dan kehilangan tekanan, penggam-baran skema hidrolis sistem transmisi: EGL dan HGL, perencanaan bangunan/alat pe-nunjang sistem transmisi: bak penurun tekanan, air valve, blow off, dll
- Reservoir sebagai bagian dari sistem penyediaan air minum : Kegunaan dan penempatan reservoir, jenis-jenis reservoir: ground dan elevated reservoir, perencanaan kebutuhan volume reservoir
- Pengantar sistem distribusi: Definisi dan urgensi sistem distribusi, debit pengaliran: debit rata-rata dan debit puncak, jaringan dalam sistem distribusi : jaringan terbuka, loop, dan kombinasi, pemilihan jalur distribusi
- Aspek hidrolis dalam sistem distribusi: Jenis pengaliran sistem distribusi: gravitasi dan pemompaan, perhitungan dimensi pipa distribusi, kebutuhan tekanan dan kehilangan tekanan, persamaan Hardy cross dalam sistem loop distribusi
Pemahaman mengenai konsep DMA, desain DMA dan pemanfaatan DMA dalam mengurangi NRW pada sistem distribusi
- Perhitungan komputasi sistem distribusi dengan software Epanet, pengenalan konsep perhitungan, dan pengenalan serta pemahaman penggunaan software
- Pengenalan SCADA dalam otomasi sistem penyediaan air minum
| - Introduction: The role of water in life, a glance at aspects of water quantity and quality, the main components in the drinking water supply system, projection/estimation of drinking water needs, including the introduction of NRW (non-revenue water) in the drinking water supply system.
- Applicable regulations in the drinking water supply system, including Jakstra Planning and RISPAM
- Sources of raw water for drinking water: Type, quality, quantity and fluctuation of raw water sources: surface water, ground water, advantages and disadvantages of each source of raw water for drinking water, planning of raw water intake buildings, standard drawings of surface water intake buildings
- Differences in raw water quality for drinking water and processing concepts for each type of raw water
- Introduction to transmission systems: Definition and urgency of transmission systems, pipeline/transmission line planning, selection of channels or types of transmission system pipes, flow rate: average flow rate, maximum daily flow rate
- Hydraulic aspects and buildings/equipment related to the transmission system: Types of transmission system delivery: gravity and pumping, calculation of transmission pipe dimensions, pressure requirements and pressure loss, depiction of the hydraulic scheme of the transmission system: EGL and HGL, planning of buildings/equipment supporting the transmission system: pressure reducing tank, air valve, blow off, etc
- Reservoirs as part of the drinking water supply system: Use and placement of reservoirs, types of reservoirs: ground and elevated reservoirs, planning reservoir volume requirements
- Introduction to distribution systems: Definition and urgency of distribution systems, flow discharge: average discharge and peak discharge, networks in distribution systems: open, loop and combination networks, selection of distribution lines
- Hydraulic aspects in distribution systems: Types of distribution system drainage: gravity and pumping, calculation of distribution pipe dimensions, pressure requirements and pressure losses, Hardy cross equation in distribution loop systems
Understanding of DMA concepts, DMA design and DMA utilization in reducing NRW in distribution systems
- Distribution system computing calculations with Epanet software, introduction to calculation concepts, and introduction and understanding of software use
- Introduction of SCADA in drinking water supply system automation
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| Capaian Pembelajaran Mata Kuliah (CPMK) | - Mahasiswa mampu menghitung kebutuhan air bersih. Mampu merancang suatu sistem penyediaan air minum, dari transmisi sampai distribusi.
- Mahasiswa mengetahui dasar-dasar perencanaan dan aspek-aspek yang umum ditemui di dalam persoalan penyediaan air minum.
- Mahasiswa memahami sistem aliran, kebutuhan pipa dan peralatan-nya, dapat mengaplikasikan hidrolika aliran dalam pipa distribusi, mengenal konsep DMA dan dapat merencanakan konsep DMA dalam sistem distribusi, dan dapat membuat perencanaan sistem distribusi dengan software Epanet.
- Mahasiswa memahami sistem aliran, kebutuhan pipa dan peralatan-nya, dapat mengaplikasikan hidrolika aliran dalam pipa transmisi; dapat menghitung kehilangan tekanan dan memplotkannya dalam gambar hidrolis sistem transmisi dihubungkan dengan kondisi lapangan
| - Students are able to calculate clean water needs. Able to design a drinking water supply system, from transmission to distribution.
- Students know the basics of planning and aspects commonly encountered in drinking water supply issues.
- Students understand flow systems, the need for pipes and equipment, can apply flow hydraulics in distribution pipes, know the DMA concept and can plan DMA concepts in distribution systems, and can make distribution system plans using Epanet software.
- Students understand flow systems, the need for pipes and equipment, can apply flow hydraulics in transmission pipes; can calculate pressure loss and plot it in a hydraulic drawing of the transmission system in relation to field conditions
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