Kurikulum 2024

Kode Mata KuliahTK5102 / 4 SKS
Penyelenggara230 - Teknik Kimia / FTI
KategoriKuliah
Bahasa IndonesiaEnglish
Nama Mata KuliahTermodinamika Teknik Kimia LanjutAdvanced Chemical Engineering Thermodynamics
Bahan Kajian
  1. Riviu dipercepat hukum termodinamika I, II, dan III
  2. Persamaan keadaan (gas ideal, virial, dan kubik/EOS)
  3. Faktor asentrik dan kemampatan (compressibility)
  4. Konsep fugasitas sistem non ideal
  5. Aturan pencampuran sistem multikomponen
  6. Kriteria kesetimbangan fasa; perhitungan kesetimbangan fasa menggunakan persamaan kubik dan korelasi ;
  7. Aplikasi sistem kesetimbangan uap-cair: larutan ideal (aturan Lewis-Randall, hukum/model Raoult dan hukum Henry) dan larutan tak ideal (koefisien aktifitas, efek pencampuran dan fungsi ekses, model Raoult termodifikasi)
  8. Perhitungan koefisien aktifitas menggunakan korelasi Wuhl, Redlich-Kister, van Laar, Margules, Wilson, ASOG, NRTL, UNIQUAC, dan/atau UNIFAC
  9. Nisbah kesetimbangan uap-cair menurut Chao-Seader, BWRS dan grafik GPA, dan parameter tekanan konvergensi.
  10. Kesetimbangan reaksi sistem ideal dan tak ideal multireaksi dan/atau multifasa
  1. Accelerated review of the laws of thermodynamics I, II, and III
  2. Equations of state (ideal gas, virial, and cubic/EOS)
  3. Accentric factor and compressibility
  4. Concept of fugacity of non-ideal systems
  5. Multicomponent system mixing rules
  6. Phase equilibrium criteria; phase equilibrium calculations using cubic equations and correlations;
  7. Applications of vapor-liquid equilibrium systems: ideal solutions (Lewis-Randall rule, Raoult's law/model and Henry's law) and non-ideal solutions (activity coefficient, mixing effect and excess function, modified Raoult's model).
  8. Activity coefficient calculation using Wuhl, Redlich-Kister, van Laar, Margules, Wilson, ASOG, NRTL, UNIQUAC, and/or UNIFAC correlations.
  9. Chao-Seader vapor-liquid equilibrium ratio, BWRS and GPA charts, and convergence pressure parameters.
  10. Reaction equilibrium of multireaction and/or multiphase ideal and non-ideal systems
Capaian Pembelajaran Mata Kuliah (CPMK)
  1. Mampu menyusun persamaan konservasi dan membandingkan efisiensi untuk unit operasi Teknik Kimia dengan mempertimbangkan hukum Termodinamika I, II, dan III.
  2. Mampu memprediksi sifat termodinamika fluida gas nyata menggunakan persamaan keadaan kompleks multikomponen.
  3. Mampu memprediksi sifat termodinamika fasa gas dan fasa cair menggunakan persamaan model kesetimbangan-fasa kompleks multikomponen.
  4. Mampu memprediksi koordinat reaksi dan komposisi reaksi kesetimbangan pada kondisi nyata multireaksi dan/atau multifasa.
  1. Able to compile conservation equations and compare efficiencies for Chemical Engineering operating units by considering the laws of Thermodynamics I, II, and III.
  2. Able to predict the thermodynamic properties of real gaseous fluids using multicomponent complex equations of state.
  3. Able to predict thermodynamic properties of gas phase and liquid phase using multicomponent complex phase-equilibrium model equations.
  4. Able to predict reaction coordinates and composition of equilibrium reactions under real conditions of multireaction and/or multiphase.
Metode Pembelajarandiskusi kelompok, simulasi, studi kasus, pembelajaran berbasis proyek, pembelajaran berbasis masalahgroup discussion, simulation, case study, project-based learning, problem-based learning
Modalitas PembelajaranLuring & daringOffline and online
Jenis NilaiABCDE
Metode PenilaianUTS, UAS, Tugas/PRMidterm Exam, Final Exam, Assignments
Catatan Tambahan