Kode Mata KuliahBE3204 / 3 SKS
Penyelenggara112 - Bioengineering / SITH
KategoriLecture
Bahasa IndonesiaEnglish
Nama Mata KuliahBiokatalisBiocatalyst
Bahan Kajian
  1. Definisi biokatalis dan peranannya dalam proses industri.
  2. Perbandingan dengan katalis kimia dan keunggulannya
  3. Enzim sebagai Biokatalis
  4. Pemilihan Substrat dan Reaksi Biokatalitik
  5. Metode Produksi Biokatalis
  6. Pemodelan dan Desain Biokatalis
  7. Biokatalisis dalam Sintesis Organik
  8. Biokatalisis dalam Industri Pangan
  9. Biokatalisis dalam Industri Energi dan Lingkungan
  10. Reaksi Multi-enzim dalam Biokatalisis
  11. Analisis Kinetika Biokatalisis
  12. Studi Kasus dan Aplikasi Industri
  1. Definition of biocatalysis and its role in industrial processes.
  2. Comparison with chemical catalysts and its advantages.
  3. Enzymes as biocatalysts.
  4. Selection of substrates and biocatalytic reactions.
  5. Methods of biocatalyst production.
  6. Modeling and design of biocatalysts.
  7. Biocatalysis in organic synthesis.
  8. Biocatalysis in the food industry.
  9. Biocatalysis in the energy and environmental industries.
  10. Multi-enzyme reactions in biocatalysis.
  11. Kinetic analysis of biocatalysis.
  12. Case studies and industrial applications.
Capaian Pembelajaran Mata Kuliah (CPMK)
  1. Mahasiswa mampu merancang strategi produksi biokatalis yang efektif, termasuk pemilihan agen hayati atau enzim yang tepat, serta teknik produksi dan pemurnian yang sesuai untuk aplikasi industri spesifik.
  2. Mahasiswa mampu melakukan analisis kritis terhadap konsep biokatalisis, termasuk membandingkan biokatalis dengan katalis kimia konvensional dan mengevaluasi keunggulan biokatalisis dalam konteks keberlanjutan dan efisiensi proses industri.
  3. Mahasiswa mampu mengintegrasikan pengetahuan tentang biokatalisis dalam berbagai industri seperti farmasi, pangan, dan energi, untuk mengembangkan solusi inovatif dalam bioteknologi yang mendukung keberlanjutan dan efisiensi proses industri.
  1. Students are able to design effective biocatalyst production strategies, including the selection of appropriate biocatalysts or enzymes, as well as suitable techniques for production and purification for specific industrial applications.
  2. Students are capable of critically analyzing concepts of biocatalysis, including comparing biocatalysts with conventional chemical catalysts and evaluating the advantages of biocatalysis in the context of sustainability and industrial process efficiency.
  3. Students can integrate knowledge of biocatalysis across various industries such as pharmaceuticals, food, and energy to develop innovative solutions in biotechnology that support sustainability and industrial process efficiency.
Metode PembelajaranKuliah dan DiskusiLectures and Discussions
Modalitas PembelajaranKuliah: Luring sinkronLectures: Offline syncronous
Jenis NilaiABCDE
Metode PenilaianUAS, UTS, Tugas, KuisFinal exam, Midterm exam, Assignments, Quiz
Catatan Tambahan