Kode Mata KuliahTK5025 / 4 SKS
Penyelenggara230 - Teknik Kimia / FTI
KategoriKuliah
Bahasa IndonesiaEnglish
Nama Mata KuliahTeknologi Konversi BiomassaBiomass Conversion Technology
Bahan Kajian
  1. Pendahuluan (Memberikan pengenalan dan pemahaman dasar tentang konversi biomassa dan pentingnya dalam konteks energi terbarukan).
  2. Teknologi produksi biohidrogen (Fermentasi gelap; fotobiologis; biofotolisis; photofermentation; gasifikasi biomassa; reforming biogas; microbial electrolysis cell (MECs))
  3. Teknologi produksi bioetanol (prinsip dan proses fermentasi; bahan baku bioetanol: generasi pertama (pati dan gula), generasi kedua (lignoselulosa), dan generasi ketiga (alga); proses peningkatan efisiensi produksi; pemurnian dan aplikasi bioetanol).
  4. Teknologi produksi biobutanol (Proses fermentasi ABE; mikroorganisme dalam produksi biobutanol; proses pemurnian dan penggunaan biobutanol; dan manajemen residu dan limbah)
  5. Teknologi pirolisis biomassa penghasil bio-oil (Prinsip dasar pirolisis, kinetika reaksi pirolisis, pemurnian dan pemanfaatan bio-oil; aplikasi industri bio-oil; studi kasus aplikasi bio-oil di berbagai sektor)
  6. Teknologi berbasis mikroalga (Budidaya mikroalga untuk produksi lipid; proses ekstraksi lipid dari mikroalga; konversi lipid menjadi biodiesel; produksi biohidrokarbon dari mikroalga; aplikasi dalam industri energi; studi kasus)
  1. [Introduction (Providing an introduction and basic understanding of biomass conversion and its importance in the context of renewable energy).]
  2. Technology for biohydrogen production (Dark fermentation; photobiological; bio-photolysis; photofermentation; biomass gasification; biogas reforming; microbial electrolysis cell (MECs))
  3. Technology for bioethanol production (principles and fermentation processes; bioethanol feedstocks: first generation (starch and sugar), second generation (lignocellulose), and third generation (algae); process efficiency enhancement; purification and applications of bioethanol).
  4. Technology for biobutanol production (ABE fermentation process; microorganisms in biobutanol production; purification process and uses of biobutanol; and waste and residue management)
  5. Biomass pyrolysis technology for bio-oil production (Basic principles of pyrolysis, pyrolysis reaction kinetics, purification and utilization of bio-oil; industrial applications of bio-oil; case studies of bio-oil applications in various sectors)
  6. Microalgae-based technology (Microalgae cultivation for lipid production; lipid extraction processes from microalgae; conversion of lipids into biodiesel; biohydrocarbon production from microalgae; applications in the energy industry; case studies)
Capaian Pembelajaran Mata Kuliah (CPMK)
  1. Mahasiswa mampu menguasai konsep teknologi konversi biomassa dalam konteks energi terbarukan.
  2. Mahasiswa mampu menganalisis proses produksi biohidrogen, termasuk fermentasi gelap, fotobiologis, biofotolisis, photofermentation, gasifikasi biomassa, reforming biogas, dan microbial electrolysis cell (MECs).
  3. Mahasiswa mampu menganalisis prinsip, proses fermentasi, dan bahan baku bioetanol; meningkatkan efisiensi produksi, memurnikan, dan mengaplikasikan bioetanol dalam industri secara berkelanjutan.
  4. Mahasiswa mampu menganalisis proses fermentasi ABE, jenis-jenis mikroorganisme yang digunakan dalam produksi biobutanol, serta prosedur pemurnian dan manajemen residu serta limbah yang dihasilkan.
  5. Mahasiswa mampu memahami, menganalisis, mengembangkan, dan mengimplementasikan teknologi pirolisis biomassa serta proses pemurnian dan pemanfaatan bio-oil dalam industri, dengan menyelesaikan tugas kecil yang berfokus pada studi kasus aplikasi bio-oil di berbagai sektor.
  6. Mahasiswa mampu menganalisis proses budidaya, ekstraksi, dan konversi lipid dari mikroalga menjadi biodiesel dan biohidrokarbon, serta memahami berbagai teknologi produksi biohidrogen melalui studi kasus mikroalga, dengan melibatkan tugas besar (berupa karya tulis dan presentasi) yang menekankan aplikasi industri dari teknologi tersebut.
  1. Students are able to master the concepts of biomass conversion technology in the context of renewable energy.
  2. Students are able to analyze the biohydrogen production processes, including dark fermentation, photobiological, bio-photolysis, photofermentation, biomass gasification, biogas reforming, and microbial electrolysis cells (MECs).
  3. Students are able to analyze the principles, fermentation processes, and feedstocks of bioethanol; enhance production efficiency, purify, and sustainably apply bioethanol in industry.
  4. Students are capable of analyzing the ABE fermentation process, types of microorganisms used in biobutanol production, as well as purification procedures and management of resulting residues and waste.
  5. Students are able to understand, analyze, develop, and implement biomass pyrolysis technology as well as the purification and utilization processes of bio-oil in industry, by completing small assignments focused on case studies of bio-oil applications in various sectors.
  6. Students are capable of analyzing the cultivation, extraction, and lipid conversion processes from microalgae into biodiesel and biohydrocarbons, as well as understanding various biohydrogen production technologies through case studies involving microalgae. This involves completing a major assignment (such as a written work and presentation) focusing on industrial applications of these technologies.
Metode PembelajaranCeramah dan diskusi Studi kasus Pembelajaran berbasis proyekLecture and discussion Case studies Project-based learning
Modalitas PembelajaranPembelajaran Tatap Muka Blended Learning Pembelajaran MandiriOffline Blended Learning Self-directed learning
Jenis NilaiABCDE
Metode PenilaianTugas kecil 25% UTS 20% Tugas besar (karya tulis dan presentasi) 55%Assignments 25% Midterm exam 20% Major assignment (written work and presentation) 55%
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