Kode Mata KuliahTL2204 / 2 SKS
Penyelenggara153 - Environmental Engineering / FTSL
KategoriLecture
Bahasa IndonesiaEnglish
Nama Mata KuliahPengelolaan Sumber Daya AirWater Resource Management
Bahan Kajian
  1. Visi dan misi pengelolaan sumber daya air Undang-undang yang mengatur pengelolaan sumber daya air Konsep hidrologi dan sistem daerah aliran sungai (DAS) dalam pengelolaan sumber daya air
  2. Adaptasi: rekayasa teknologi dan sosial untuk beradaptasi terhadap keacakan debit air Mitigasi (direct: UU dan peraturan; undirect: insentif dan dissentif)
  3. Fenomena perubahan iklim dan dampaknya terhadap rezim aliran Fenomena perubahan tata guna lahan dan dampaknya terhadap ketidaberlanjutan infrastruktur sumber daya air Contoh kasus konversi lahan di kawasan konservasi di salah satu DAS di Indonesia
  4. Konsep debit rencana Ekstrimitas debit rencana kering dan debit rencana banjir dan pengaruhnya keberlanjutan nya infrastruktur sumber daya air
  5. Metode perhitungan debit rencana kering dan debit rencana banjir dengan uji distribusi Gumbel, Normal, Log Normal, dan Log Pearson Perhitungan alokasi air untuk kebutuhan irigasi dan domestik
  6. Kebijakan pengendalian pencemaran air (stream standard) pada kondisi debit rencana kering
  7. Persamaan saint venant dan turunannya Persamaan finite difference dan simulasi banjir dan contoh kasus
  8. Sistem pengembangan air minum berkelanjutan: terdiri dari sumber, teknologi, dan distribusi hierarki air baku Hierarki pengembangan SPAM yang terdiri Air baku alamiah air tanah dalam, mata air, sungai, danau, pengembangan SDA (waduk), reuse, dan desalinasi
  9. Peraturan optimasi pengoperasian waduk Visi dan urgensi optimasi pengperasian waduk
  10. Perkiraan debit dengan metode korelasi spasial Perkiraan debit dengan metode diskrit markov
  11. Perkiraan debit dengan metode korelasi spasial Perkiraan debit dengan metode diskrit markov
  12. Simulasi pengoperasian waduk aktual dengan ketidakpastian masa depan (simulasi pengoperasian waduk
  13. Konsep program dinamik Bellman Penentuan lintasan pedoman dengan program dinamik Bellman
  14. Teknik simulasi pengelolaan waduk optimal ketidakpastian masa depan harga listrik bervariasi (pedoman lintasan dengan program dinamik Bellman)
  1. Vision and mission of water resources management Laws governing water resources management Hydrologic concepts and watershed systems (DAS) in water resources management
  2. Adaptation: technological and social engineering to adapt to the randomness of water discharge Mitigation (direct: laws and regulations; indirect: incentives and disincentives)
  3. The phenomenon of climate change and its impact on flow regimes The phenomenon of land use change and its impact on the unsustainability of water resource infrastructure A case study of land conversion in a conservation area in one of the watersheds in Indonesia
  4. The concept of planned discharge The extremes of dry planned discharge and flood planned discharge and their impact on the sustainability of water resources infrastructure
  5. Calculation method for dry design discharge and flood design discharge with Gumbel, Normal, Log Normal, and Log Pearson distribution tests Calculation of water allocation for irrigation and domestic needs
  6. Water pollution control policy (stream standard) under dry design discharge conditions
  7. Saint Venant equation and its derivatives Finite difference equation and flood simulation and case examples
  8. Sustainable drinking water development system: consists of sources, technology, and distribution of raw water hierarchy SPAM development hierarchy consisting of natural raw water, deep groundwater, springs, rivers, lakes, development of natural resources (reservoirs), reuse, and desalination
  9. Regulation on reservoir operation optimization Vision and urgency of reservoir operation optimization
  10. Discharge estimation using spatial correlation method Discharge estimation using discrete markov method
  11. Discharge estimation using spatial correlation method Discharge estimation using discrete markov method
  12. Simulation of actual reservoir operation with future uncertainty (reservoir operation simulation
  13. Bellman dynamic program concept Determination of guideline trajectory with Bellman dynamic program
  14. Optimal reservoir management simulation technique for uncertain future electricity prices (path guidance with Bellman dynamic program)
Capaian Pembelajaran Mata Kuliah (CPMK)
  1. Mahasiswa mampu memahami teori dan aplikasi prinsip-prinsip pengelolaan sumber air secara kuantitatif dan kualitatif.
  1. Students are able to understand the theory and application of water resource management principles quantitatively and qualitatively.
Metode PembelajaranKBL, PBL, SBL, CBLKBLO, PBL, SBL, CBL
Modalitas PembelajaranLuring, SinkronOffline, Synchronous
Jenis NilaiABCDE
Metode PenilaianUraianEssay
Catatan Tambahan