Kode Mata KuliahMG2212 / 2 SKS
Penyelenggara125 - Metallurgical Engineering / FTTM
KategoriLecture
Bahasa IndonesiaEnglish
Nama Mata KuliahFenomena Transport MetalurgiMetallurgical Transport Phenomena
Bahan Kajian
  1. Hukum-hukum konduksi, konveksi, dan radiasi
  2. Konduksi panas dalam pelat datar, silinder, dan dinding komposit.
  3. Distribusi temperatur pada aliran dalam pipa. Konduksi tak-tunak.
  4. Perpindahan panas dengan generasi. Konveksi dan radiasi.
  5. Hukum Fick’s I & II. Difusi & konveksi massa
  6. Difusi melalui kapiler. Difusi gas melalui lapisan film Difusi disertai reaksi kimia
  7. Difusi dalam padatan tak-tunak.
  8. Perpindahan massa disertai dengan reaksi heterogen. Efek faktor geometri dalam persamaan laju.
  9. Hukum kekentalan Newton. Momentum viscous dan konvektif.
  10. Aliran fluida diantara dua bidang parallel dan pada bidang miring.
  11. Aliran laminer & turbulen. Aliran fluida dalam pipa silinder.
  12. Aliran fluida merayap melalui sebuah bola pejal. Sistim fluidisasi.
  1. Laws of conduction, convection, and radiation
  2. Heat conduction in flat plates, cylinders, and composite walls
  3. Temperature distribution in pipe flow. Unsteady-state conduction.
  4. Heat transfer with generation: convection and radiation
  5. Fick's Laws I & II: Diffusion and mass convection
  6. Diffusion through capillaries. Gas diffusion through film layers. Diffusion accompanied by chemical reactions.
  7. Non-steady-state diffusion in solids
  8. Mass transfer accompanied by heterogeneous reactions. Geometric factor effects in rate equations.
  9. Newton's viscosity law. Viscous and convective momentum.
  10. Fluid flow between two parallel plates and on inclined planes
  11. Laminar and turbulent flow. Fluid flow in cylindrical pipes.
  12. Creeping fluid flow through a solid sphere. Fluidized systems.
Capaian Pembelajaran Mata Kuliah (CPMK)
  1. Mampu mempelajari dan menafsirkan konsep-konsep perpindahan panas, massa, dan momentum secara runut dan mandiri.
  2. Mampu menerapkan pengetahuan matematika, ilmu pengetahuan alam, dan rekayasa dalam mengevaluasi konsep-konsep perpindahan panas, massa, dan momentum dalam persoalan proses-proses metalurgi.
  3. Menguasai pemecahan masalah perpindahan momentum dan panas dalam aplikasi enjiniring.
  1. Able to study and interpret concepts of heat, mass, and momentum transfer systematically and independently.
  2. Able to apply knowledge of mathematics, natural sciences, and engineering in evaluating concepts of heat, mass, and momentum transfer in metallurgical processes.
  3. Proficient in solving problems related to momentum and heat transfer in engineering applications.
Metode PembelajaranKegiatan proses belajar dalam kelas Kegiatan penugasan terstrukturClassroom learning activities Structured assignment activities
Modalitas PembelajaranKombinasi ceramah dan diskusi, pembelajaran mandiri dari literatur atau video, pembelajaran berbasis masalah, tugas mandiri, kuis rutin bersama, dan pembelajaran kooperatif.Combination of lectures and discussions, independent learning from literature or videos, problem-based learning, independent assignments, regular quizzes, and cooperative learning.
Jenis NilaiABCDE
Metode PenilaianUjian Tengah Semester (UTS) Ujian Tengah Semester (UAS) Tugas Mandiri Kuis atau Komponen Penilaian LainnyaMid-Semester Exam (UTS) End-Semester Exam (UAS) Independent Assignments Quizzes or Other Assessment Components
Catatan Tambahan