Course Module Department of Agricultural Engineering Faculty of Agricultural Technology Universitas Brawijaya Module name Module level Code Subtitle Courses Semester(s) Person responsible for the module Lecturer Language Relation to curriculum Type of teaching, contact hours Workload Credit points Requirements according to the examination regulations Recommended prerequisites Module objectives/intended learning outcomes. Chemical Reaction Engineering Undergraduate program TPO62015 5 Dina Wahyu Indriani, S.TP, M.Sc Nur Istianah, ST., MT., M.Eng 1. Dina Wahyu Indriani, S.TP, M.Sc 2. Nur Istianah, ST., MT., M.Eng Bahasa Indonesia, English Compulsory/elective Contact hours and class size separately for each teaching method: lecture, lesson, exercise, tutorial, seminar etc. 102,34 hours/semester Lecture, assignment, tutorial and private study 3 SKS / 5,1 ECTS -. ILO-2: To formulate and operate conversion processes of biological resources into bio-based value added materials related to food, feed, fuels, pharmaceutical, nutraceutical, biomaterials or biochemicals. ILO-3: To design biological reaction and reactors including its materials, instrumentation, control, and modeling. ILO-1: To acquire a sound knowledge in mathematics and natural science and apply engineering principles in determining and solving contemporary and complex problems related to the bioprocess field. Objectives Knowledge: familiarity with definition of chemical reaction, types, characteristics each reaction, chemical reaction kinetics, chemical reaction.

Content. thermodynamics, catalysts, biocatalysts, bioreactors, enzymatic reaction kinetics. Skills: Competences: Lecture: 1. Introduction: Definition of chemical reaction engineering 2. Chemical reaction thermodynamics 3. Chemical reaction kinetics 4. Case Study of Chemical Reaction Overview 5. Catalyst 6. Biocatalyst 7. Enzymatic reaction kinetics 8. Application of catalyst and biocatalyst Tutorial: 1. Introduction to types of chemical reactions 2. Technical formulation of chemical reaction thermodynamics 3. Sedimentation and filtration of household solid waste 4. Formulation of chemical reaction kinetics, enthalpy, entropy, and gibbs 5. Catalyst 6. Formulation of enzymatic reaction kinetics 7. Application of chemical reaction engineering. Study and examination requirements and forms of examination. 1. 2. 3. 4. 5.. Midterm exam Final term exam Quiz Assignment Tutorial Final Exam. How to score: Midterm Exam Final Exam Assignment Quiz Tutorial. = = = 10% = 10% = 25%. A : 80<Final Score≤100 B+ : 75< Final Score ≤80 B : 69< Final Score ≤75 C+ : 60< Final Score ≤69 C : 55< Final Score ≤60 D : 50 < Final Score ≤55 D+ : 44< Final Score ≤50 E : 0< Final Score ≤44.

Media employed Reading list. Class, Online learning system (Zoom and Google Classroom). 1. Levenspiel O, 1998, Chemical reaction Engineering , Wiley. 2. Fogler, H. S, Elements of Chemical Reaction Engineering, 3rd Edition, Prentice-Hall. 3. Doran, P. M. 1995. Bioprocess Engineering Principles. Academic Press: LONDON. 4. Smith, J.M., 1981, Chemical Engineering Kinetics, 3rd ed., McGrawHill, 1981. 5. Thomas, JM, and Thomas WJ., 1997, Principles and Practice of Heterogeneous Catalysis, VCH-Weinheim..