Kode Mata KuliahFI4242 / 3 SKS
Penyelenggara102 - Fisika / FMIPA
KategoriKuliah
Bahasa IndonesiaEnglish
Nama Mata KuliahDesain Sistem Energi NuklirNuclear Energy System Design
Bahan Kajian
  1. Riset dan perkembangan sistem energi nuklir
  2. Energi nuklir yang terkini sesuai dengan kebutuhan di dunia industri
  3. Topik-topik utama antara lain neutronik (transport neutron, aproksimasi difusi, metode monte carlo)
  4. Aspek keselamatan termal-hidrolik (transfer panas, aliran fluida pendingin 1 fasa, aliran fluida pendingin 2 fasa)
  5. Termodinamika (konversi energi, siklus pada reaktor nuklir, efisiensi siklus).
  6. Aplikasi energi nuklir untuk system ko-generasi
  7. Research based Learning
  1. Research and development of nuclear energy systems
  2. The latest nuclear energy meets the needs of the industrial world
  3. Main topics include neutronics (neutron transport, diffusion approximation, Monte Carlo method)
  4. Thermal-hydraulic safety aspects (heat transfer, 1-phase cooling fluid flow, 2-phase cooling fluid flow)
  5. Thermodynamics (energy conversion, cycles in nuclear reactors, cycle efficiency)
  6. Application of nuclear energy for co-generation systems
  7. Research based Learning
Capaian Pembelajaran Mata Kuliah (CPMK)
  1. Mengetahui tentang perkembangan terkini di bidang rekayasa energi nuklir
  2. Melakukan identifikasi riset dan perkembangan dalam disiplin rekayasa energi nuklir yang mungkin menjadi bahan penelitian tugas akhir
  3. Mengevaluasi tema system energi nuklir dari aspek netronik, termal-hidrolik, keselamatan dan termodinamika reactor
  4. Mengevaluasi tema system energi nuklir untuk aplikasi Listrik dan ko-generasi.
  5. Mampu menjelaskan dan menunjukkan dalam kasus sederhana sistem energi nuklir
  6. Mampu mengerjakan research based learning (RBL) terkait sistem energi nuklir
  1. Find out about the latest developments in the field of nuclear energy engineering
  2. Identify research and developments in the discipline of nuclear energy engineering that may become material for final project research
  3. Evaluate the theme of nuclear energy systems from the aspects of neutronics, thermal-hydraulics, safety and reactor thermodynamics
  4. Evaluate the theme of nuclear energy systems for electricity and co-generation applications
  5. Able to explain and demonstrate in simple cases the nuclear energy system
  6. Able to carry out research based learning (RBL) related to nuclear energy systems
Metode PembelajaranCeramah, diskusi, problem-based learningLectures, discussions, problem-based learning
Modalitas PembelajaranLuring sinkron Bauran/ Daring AsinkronSynchronous offline, Mixed/Asynchronous Online
Jenis NilaiABCDE
Metode PenilaianUjian Tengah Semester, Ujian Akhir Semester, Kuis, Tugas, RBLMidterm Exam, Final Exam, Quiz, Assignments, RBL
Catatan TambahanMKPB