Kode Mata KuliahTK3102 / 3 SKS
Penyelenggara130 - Teknik Kimia / FTI
KategoriKuliah
Bahasa IndonesiaEnglish
Nama Mata KuliahSistem UtilitasUtility Systems
Bahan Kajian
  1. Peran dan jenis-jenis sistem utilitas pabrik proses
  2. Bahan bakar dan sistem pembakaran
  3. Sistem penyediaan kukus
  4. Turbin kukus dan turbin gas
  5. Sistem penyediaan air dan air pendingin
  6. Sistem kelistrikan dan motor listrik
  7. Teknologi berkelanjutan dalam sistem utilitas
  1. Role and types of process plant utility systems
  2. Fuel and combustion system
  3. Steam supply system
  4. Steam turbine and gas turbine
  5. Water supply and cooling water systems
  6. Electrical systems and electric motors
  7. Sustainable technology in utility systems
Capaian Pembelajaran Mata Kuliah (CPMK)
  1. Mampu memaparkan jenis-jenis sistem utilitas pokok pada pabrik proses beserta perannya
  2. Mampu memaparkan karakteristik & cara kerja sistem pembakaran & penggerak mula: bahan bakar industrial, sistem pembakaran, turbin kukus, turbin gas, motor bakar, siklus kombinasi, kogenerasi.
  3. Mampu menganalisis secara sederhana neraca massa & energi sistem penggerak mula: turbin kukus, turbin gas, motor bakar dan motor listrik
  4. Mampu memaparkan cara kerja & memperhitungkan spesifikasi dasar sistem pengolahan air baku & sistem air pendingin.
  5. Mampu menyusun rancangan dasar sistem penyediaan energi termal suatu pabrik sederhana dengan mempertimbangkan aspek-aspek keberlanjutan.
  6. Mampu memaparkan isu-isu & teknologi mutakhir terkait keberlanjutan pada sistem utilitas
  1. Able to explain the types of main utility systems in process factories and their roles
  2. Able to explain the characteristics and workings of combustion and prime mover systems: industrial fuel, combustion system, steam turbine, gas turbine, combustion motor, combined cycle, cogeneration.
  3. Able to analyze in simple terms the mass & energy balance of prime mover systems: steam turbines, gas turbines, combustion motors, electric motors.
  4. Able to explain how it works & calculate the basic specifications of raw water processing systems & cooling water systems.
  5. Able to prepare a basic design of a thermal energy supply system for a simple factory by considering sustainability aspects.
  6. Able to explain the latest issues & technology related to sustainability in utility systems
Metode PembelajaranCeramah klasikal, studi kasusLectures, case studies
Modalitas PembelajaranLuring, daring (hanya untuk penguatan dengan materi asinkronik), kolaboratifOffline, online (only for enrichment with asynchronous material), collaborative
Jenis NilaiABCDE
Metode PenilaianUjian, tugas berkelompokExams, group assignments
Catatan Tambahan