D Y Patil International University, Akurdi, Pune
Search results: 1867
- Teacher: Ms Naasrin Israiel Shaikh
- Teacher: Dr. Babuskin Srinivasan
- Teacher: Ms. Presida Bacil Vanjare
COURSE DESCRIPTION:
The designed course is an amalgamation of mathematics, biology and industrial design, and deals with the design and development of equipment and processes for the manufacturing of products such as agriculture, food, feed, pharmaceuticals, chemicals, polymers etc.
COURSE OUTCOMES
After completion of the course the students gather knowledge on
Ø Media optimization- Different optimization strategies employed
Ø Design sterilization operations
Ø Describe the type of bioreactors employed
Ø Modes of fermentation- pros and cons of each operation
Ø Determine oxygen requirements via oxygen mass transfer coefficient
Ø Models used to study the growth of cells in the boreactor
Ø Cultivation of microbial, animal and plant cells in bioreactor
|
Module No. |
Topics |
Lectures |
|
1. |
Module 1: Overview of fermentation process & Media design Overview of fermentation industry-general requirements of fermentation process-basic configuration of fermentor (CSTR) and ancillaries, main parameters to be monitored and controlled in fermentation processes. Criteria for good medium, medium requirements for fermentation processes, carbon, nitrogen, minerals, vitamins and other complex nutrients, oxygen requirements, medium formulation of optimal growth and product formation, examples of simple and complex media, design of various commercial media for industrial fermentations – medium optimization methods |
6 |
|
2 |
Module 2: METABOLIC STOICHIOMETRY AND ENERGETICS Stoichiometry of cell growth and product formation, elemental balances, degrees of reduction of substrate and biomass, available electron balances, yield coefficients of biomass and product formation, maintenance coefficients energetic analysis of microbial growth and product formation, oxygen consumption and heat evolution in aerobic cultures, thermodynamic efficiency of growth.
STERILIZATION KINETICS Thermal death kinetics of microorganisms, batch and continuous heat sterilization of liquid media, filter sterilization of liquid media, air sterilization and design of sterilization equipment - batch and continuous |
10 |
|
3. |
Module 3: Configuration of Bioreactors & Growth kinetics Bioreactor designs; Types of fermentation and fermenters; Concepts of basic modes of fermentation – Batch, fed batch ad continuous; Conventional fermentation v/s biotransformation; Solid substrate, surface and submerged fermentation; two stage cultivation Packed bed reactor, airlift reactor, introduction to fluidized bed reactor bubble column reactors
Simple unstructured models for microbial growth, Monod model, growth of filamentous organisms, product formation kinetics - Leudeking- Piret models, substrate and product inhibition on cell growth and product formation. Biomass estimation – Direct and Indirect methods. |
10 |
|
4 |
Module 4: BIOREACTOR SCALE UP Regime analysis of bioreactor processes, oxygen mass transfer in bioreactors – microbial oxygen demands; methods for the determination of mass transfer coefficients; mass transfer correlations. Scale up criteria for bioreactors based on oxygen transfer, power consumption and impeller tip speed. |
4 |
|
5. |
Module 5: MODELLING AND SIMULATION OF BIOPROCESSES Study of structured models for analysis of various bioprocess – compartmental models, models of cellular energetics and metabolism, single cell models, plasmid replication and plasmid stability model. Dynamic simulation of batch, fed batch, steady and transient culture metabolism. RECOMBINANT CELL CULTIVATION Different host vector system for recombinant cell cultivation strategies and advantages. E.coli, yeast Pichia pastoris/ Saccharomyces cereviseae, Animal cell cultivation, plant cell cultivation, Insect cell cultivation. High cell density cultivation, process strategies, reactor considerations in the above system |
8 |
- Teacher: Shital Vijay Nehere
- Teacher: Dr. Babuskin Srinivasan
Name of the Course: BRD 4005 Bioreactor design and analysis (4)
Course Instructor:
Name: Dr. Babuskin Srinivasan
Office Number:
Phone: +91-8807762115
Email: babuskin.srinivasan@dypiu.ac.in
Office hours: 9.30 am – 5.30 pm
Location: 516, D Y Patil International University, Pune
· Teaching Assistant: Nil
Name:
Contact:
Office Hours:
Location:
· Level (who can take this course?): B. Tech Bioengineering
· Credit: 3-1-0-4
· Evaluation:
· Breakup of evaluation: % wise
|
Mid exam (30) |
Seminar (10) |
Case study (15) |
Final exam (45) |
Total (100) |
· Maximum Number of Students: 27
Course Objectives:
The course introduces the student to design aspects of bioreactor. The course provides knowledge regarding the materials used for construction, biosensors, online control etc. At the end of this course, the student will be able to design and develop bioreactors used for specific operations
Prerequisites:
Basic mathematical skills like differentiation, integration
Basic knowledge about bioprocess
Course Syllabus:
|
Module No. |
Topics |
Lectures |
|
1. |
BIOCHEMICAL PROCESS VARIABLES – MEASUREMENTS & CONTROL Measurement & Control- Temperature, pH, pressure, dissolved oxygen, shaft power, rate of stirring, detection and prevention of foam, measurement of cells, inlet and outlet gas analysis. Mechanical fittings in a bioreactor. Software used in Bioreactors- SCADA |
9 |
|
2. |
BIOREACTOR DESIGN Design of batch bioreactors, Design of Fed-batch bioreactors, Design ofd Continuous Bioreactors; Design considerations for maintaining sterility of process streams processing equipments |
8 |
|
3. |
BIOREACTOR ANALYSIS Mass Transfer in bioreactor, Heat Transfer in Bioreactors, Rheology of fermentation broths, Heterogeneous reactions in bioprocesses, Scale-up of bioreactors- criteria & parameters |
8 |
|
4. |
NON-IDEAL REACTORS; RTD Design and Analysis of Non-ideal reactors, Reactors with nonideal mixing: Mixing times in agitated tanks, residence time distribution, models for nonideal reactors, Mixing-bioreaction interactions |
8 |
|
5. |
CASE STUDIES Case study analysis on type of bioreactors employed in food, biopharma and environmental treatment plants; Modelling & Simulation in bioreactor design and operation; Application of MATLAB in bioprocess. Artificial neural networking in Bioprocess |
8 |
Lesson Plan:
|
Sr. No |
Content (Daily Plan) |
Date (Proposed) |
|
1 |
Introduction to Bioreactor design |
08/08/24 |
|
2 |
Measurement - Temperature, pH |
08/08/24 |
|
3 |
Measurement- pressure |
13/08/24 |
|
4 |
Measurement- dissolved oxygen, shaft power |
20/08/24 |
|
5 |
Measurement - dissolved oxygen, shaft power |
20/08/24 |
|
6 |
Control mechanisms |
22/08/24 |
|
7 |
Type of controllers employed |
27/08/24 |
|
8 |
Mechanical fittings in a bioreactor |
27/08/24 |
|
9 |
Software used in bioreactors- SCADA |
29/08/24 |
|
10 |
Design of bioreactors- introduction |
29/08/24 |
|
11 |
Design of Batch bioreactors |
03/09/24 |
|
12 |
Design of Fed-batch bioreactors |
03/09/24 |
|
13 |
Design of continuous bioreactors |
05/09/24 |
|
14 |
Design considerations |
10/09/24 |
|
15 |
Practice problems- batch, fed batch |
12/09/24 |
|
16 |
Practice problems- continuous |
19/09/24 |
|
17 |
Mass Transfer in bioreactors |
24/09/24 |
|
18 |
Heat Transfer in Bioreactors |
01/10/24 |
|
19 |
Rheology of fermentation broths |
03/10/24 |
|
20 |
Heterogeneous reactions in bioprocesses, Scale-up of bioreactors- criteria & parameters |
03/10/24 |
|
21 |
Scale-up of bioreactors- criteria & parameters |
11/10/24 |
|
22 |
Non-ideal reactors – intro |
15/10/24 |
|
23 |
Residence time distribution |
22/10/24 |
|
24 |
Models of non-ideal reactors |
22/10/24 |
|
25 |
Student seminar |
07/11/24 |
|
26 |
Case study intro |
12/11/24 |
|
27 |
Group discussion |
14/11/24 |
|
28 |
Case study project presentation |
18/11/24 |
|
29 |
Case study project presentation |
18/11/24 |
|
30 |
Modelling and simulation of bioreactors |
19/11/24 |
|
31 |
Student seminar |
21/11/24 |
|
32 |
Tutorial class |
21/11/24 |
· Course Outcome:
Upon success completion of this course, the students will be able to:
Ø Students will be able to demonstrate knowledge regarding the construction of bioreactors
Ø Students gain inputs on the type of sensors and softwares used in the bioreactors
Ø The learners can be able to explain the type of bioreactors employed in various bioprocess sectors
Recommended Readings
1. Michael L. Shuler and FikretKargi, Bioprocess Engineering: Basic Concepts, 2nd Edition, 2002, Prentice Hall.
2. Octave Levenspiel, Chemical Reaction Engineering, 3rd Edition, 1999, Wiley
3. Moser, Anton, Bioprocess Technology: Kinetics and Reactors, Springer Verlag, 1988.
· Study Materials: shared in the form of ppts, eBooks
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