Kode Mata Kuliah | FI4242 / 3 SKS |
---|
Penyelenggara | 102 - Physics / FMIPA |
---|
Kategori | Lecture |
---|
| Bahasa Indonesia | English |
---|
Nama Mata Kuliah | Desain Sistem Energi Nuklir | Nuclear Energy System Design |
---|
Bahan Kajian | - Riset dan perkembangan sistem energi nuklir
- Energi nuklir yang terkini sesuai dengan kebutuhan di dunia industri
- Topik-topik utama antara lain neutronik (transport neutron, aproksimasi difusi, metode monte carlo)
- Aspek keselamatan termal-hidrolik (transfer panas, aliran fluida pendingin 1 fasa, aliran fluida pendingin 2 fasa)
- Termodinamika (konversi energi, siklus pada reaktor nuklir, efisiensi siklus).
- Aplikasi energi nuklir untuk system ko-generasi
- Research based Learning
| - Research and development of nuclear energy systems
- The latest nuclear energy meets the needs of the industrial world
- Main topics include neutronics (neutron transport, diffusion approximation, Monte Carlo method)
- Thermal-hydraulic safety aspects (heat transfer, 1-phase cooling fluid flow, 2-phase cooling fluid flow)
- Thermodynamics (energy conversion, cycles in nuclear reactors, cycle efficiency)
- Application of nuclear energy for co-generation systems
- Research based Learning
|
---|
Capaian Pembelajaran Mata Kuliah (CPMK) | - Mengetahui tentang perkembangan terkini di bidang rekayasa energi nuklir
- Melakukan identifikasi riset dan perkembangan dalam disiplin rekayasa energi nuklir yang mungkin menjadi bahan penelitian tugas akhir
- Mengevaluasi tema system energi nuklir dari aspek netronik, termal-hidrolik, keselamatan dan termodinamika reactor
- Mengevaluasi tema system energi nuklir untuk aplikasi Listrik dan ko-generasi.
- Mampu menjelaskan dan menunjukkan dalam kasus sederhana sistem energi nuklir
- Mampu mengerjakan research based learning (RBL) terkait sistem energi nuklir
| - Find out about the latest developments in the field of nuclear energy engineering
- Identify research and developments in the discipline of nuclear energy engineering that may become material for final project research
- Evaluate the theme of nuclear energy systems from the aspects of neutronics, thermal-hydraulics, safety and reactor thermodynamics
- Evaluate the theme of nuclear energy systems for electricity and co-generation applications
- Able to explain and demonstrate in simple cases the nuclear energy system
- Able to carry out research based learning (RBL) related to nuclear energy systems
|
---|
Metode Pembelajaran | Ceramah, diskusi, problem-based learning | Lectures, discussions, problem-based learning |
---|
Modalitas Pembelajaran | Luring sinkron Bauran/ Daring Asinkron | Synchronous offline, Mixed/Asynchronous Online |
---|
Jenis Nilai | ABCDE |
---|
Metode Penilaian | Ujian Tengah Semester, Ujian Akhir Semester, Kuis, Tugas, RBL | Midterm Exam, Final Exam, Quiz, Assignments, RBL |
---|
Catatan Tambahan | MKPB | |
---|