Lecture 1 - Introduction to the Subject and Course Plan
Lecture 2 - Introduction to Microbial World
Lecture 3 - Basic of Microbial Matabolism
Lecture 4 - Importance of Microbes
Lecture 5 - Microbial Products
Lecture 6 - Cell Constiuents and Growth
Lecture 7 - Microbial Growth
Lecture 8 - Microbial Growth Quantification
Lecture 9 - Aerobic vs Anaerobic Cultivation Methods
Lecture 10 - Numerical Practice
Lecture 11 - Microbial Growth Model
Lecture 12 - Microbial Growth Model and Parameters Estimation - Part 1
Lecture 13 - Microbial Growth Model and Parameters Estimation - Part 2
Lecture 14 - Yield and Maintenance Coefficients
Lecture 15 - Tutorial
Lecture 16 - Plant Cell Culture - Part I
Lecture 17 - Plant Cell Culture - Part II
Lecture 18 - Animal Cells
Lecture 19 - Animal Cell Culture
Lecture 20 - Numerical Practice
Lecture 21 - Animal Cells and Cell Lines
Lecture 22 - Cell Sorting Method - Part I
Lecture 23 - Cell Sorting Method - Part II
Lecture 24 - Methods of Transfection
Lecture 25 - Numerical Practice
Lecture 26 - Introductory Immunology
Lecture 27 - Immune Cells and Responses
Lecture 28 - Isolation of Immune Cells
Lecture 29 - Advanced Characterization of Immune Cells
Lecture 30 - Numerical Practice
Lecture 31 - Principles of Force, Motion and Energy in Biological Systems
Lecture 32 - Static and Dynamic Analysis of Biological Systems
Lecture 33 - Biomechanics of Bacterial Systems
Lecture 34 - Case Study on Human Motion Biomechanics
Lecture 35 - Numerical Practice on Applications of Biomechanics
Lecture 36 - Introduction to Fluid Mechanics
Lecture 37 - Advanced Fluid Machanics in Biological Systems
Lecture 38 - Case Study Blood Flow Through the Cardiovascular System
Lecture 39 - Case Study Flow in the Lungs
Lecture 40 - Numerical on Biological Fluid Machanics
Lecture 41 - Sterilization in Bioprocesses
Lecture 42 - Sterlization Charts
Lecture 43 - Practical Issues in Sterlization
Lecture 44 - Kinetics of Thermal Sterilization
Lecture 45 - Numerical Practice
Lecture 46 - Bioreactor Configurations and Operating Considerations
Lecture 47 - Chemostat with Recycle
Lecture 48 - Multiple Chemostat, Fed batch and Perfusion Systems
Lecture 49 - Gaden and Deindoerfer Classification of Product Formation
Lecture 50 - Numerical on Chemostat with Recycle and Fed Batch Operation
Lecture 51 - Oxygen Uptake in Cell Cultures
Lecture 52 - Oxygen Transfer Rate OTR vs Oxygen Uptake Rate OUR
Lecture 53 - DO Effect
Lecture 54 - Oxygen Supply and Transfer
Lecture 55 - Numerical
Lecture 56 - Mass Transfer Fundamentals
Lecture 57 - Rheology of Biological Fluids
Lecture 58 - Biological Wastewater Treatment Case Study
Lecture 59 - Case Study Related to Hematopoiesis i Bioreactor Systems
Lecture 60 - Numerical on Mass Transfer Coefficient, Rheologic Properties of Fluids and Anaerobic Digestion
