Kode Mata KuliahBE2103 / 3 SKS
Penyelenggara112 - Bioengineering / SITH
KategoriLecture
Bahasa IndonesiaEnglish
Nama Mata KuliahRekayasa BioreaksiBioreaction Engineering
Bahan Kajian
  1. Neraca Mol
  2. Konversi, Hasil, Selektivitas, dan Ukuran
  3. Persamaan Laju Reaksi
  4. Stoikiometri dalam Sistem Curah dan Aliran
  5. Bioreaksi Reaktor Isotermal: Konversi
  6. Bioreaksi Reaktor Isotermal: Mol dan Laju Alir Molar
  7. Pengumpulan dan Analisis Data Laju Reaksi
  8. Kinetika Enzimatik
  9. Bioreaksi Non Tunak
  10. Bioreaksi Adiabatik Non-isothermal
  1. Mole Balance
  2. Conversion, Yield, Selectivity, and Sizing
  3. Reaction Rate Equations
  4. Stoichiometry in Bulk and Flow Systems
  5. Isothermal Reactor Boreactions: Conversion
  6. Isothermal Reactor Bioreactions: Mole and Molar Flow Rates
  7. Data Collection and Analysis of Reaction Rates
  8. Enzymatic Kinetics
  9. Non-Steady Bioreaction
  10. Non-isothermal Adiabatic Bioreactions
Capaian Pembelajaran Mata Kuliah (CPMK)
  1. Mampu mengembangkan persamaan reaksi reaktor industrial (Reaktor Partaian, Reaktor Sinambung Tangki Berpengaduk, Reaktor Plug Flow, Reaktor Unggun Diam) baik dalam kondisi ideal dan non-ideal.
  2. Mampu mengevaluasi simulasi bioreaksi menggunakan metode numerik dan perangkat lunak terkini
  3. Mampu menganalisis berbagai persoalan pada perancangan reaktor diawali dari penerapan prinsip utama Rekayasa Reaksi Kimia, RRK, (Neraca Mol, Laju Reaksi dan Stoikiometri), dan dengan merujuk pada Pilar Rekayasa Reaksi Kimia sebagai fondasi strategi
  4. Mampu membangun model kinetika reaksi enzimatis dalam berbagai jenis bioreaktor komersial
  5. Mampu merancang suatu sistem bioreactor dan melakukan evaluasi untuk kerja bioreaktor tersebut
  1. Capable of developing reaction equations for industrial reactors (Batch Reactor, Continuously Stirred Tank Reactor, Plug Flow Reactor, Fixed Bed Reactor) under both ideal and non-ideal conditions.
  2. Able to evaluate bioreaction simulations using numerical methods and state-of-the-art software.
  3. Capable of analyzing various issues in reactor design starting from the application of the core principles of Chemical Reaction Engineering (CRE), such as Mole Balances, Reaction Rates, and Stoichiometry, and referring to the Pillars of CRE as the foundation of the strategy.
  4. Capable of constructing kinetic models of enzymatic reactions in various types of commercial bioreactors.
  5. Able to design a bioreactor system and perform evaluations to assess the performance of the bioreactor.
Metode PembelajaranKuliah dan DiskusiLectures and discussions
Modalitas PembelajaranKuliah: Luring sinkronLectures: Offline syncronous
Jenis NilaiABCDE
Metode PenilaianTugas I, Tugas II, UTS, dan UASAssignment I, Assignment II, Midterm exam, and Final Exam
Catatan Tambahan