315312: Membrane Technology Syllabus for Chemical Engineering 5th Sem K Scheme MSBTE PDF

Membrane Technology detailed Syllabus for Chemical Engineering (CH), K scheme PDF has been taken from the MSBTE official website and presented for the diploma students. For Subject Code, Subject Name, Lectures, Tutorial, Practical/Drawing, Credits, Theory (Max & Min) Marks, Practical (Max & Min) Marks, Total Marks, and other information, do visit full semester subjects post given below.

For all other MSBTE Chemical Engineering 5th Sem K Scheme Syllabus PDF, do visit MSBTE Chemical Engineering 5th Sem K Scheme Syllabus PDF Subjects. The detailed Syllabus for membrane technology is as follows.

Rationale

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Course Outcomes:

Students will be able to achieve & demonstrate the following COs on completion of course based learning

1. Identify a Membrane Separation Process for a given industrial application.
2. Select appropriate membrane and module with suitable flow characteristics for a given separation duty in chemical process industry
3. Develop and characterize membranes for various applications using different materials.
4. Analyze transport mechanisms and fouling causes of membrane separation processes and suggest fouling control measures.
5. Identify appropriate design and operating parameters for a membrane separation process for its effective performance.

Unit I

Introduction to Membrane Separation Processes 1.1 Membrane Separation: Concept and Basic Principle 1.2 Membrane Separation Processes: Classification, Advantages and Disadvantages. 1.3 Applications of Membrane Separation Processes: Chemical Industry, Pharmaceutical Industry, Food and Dairy Industry, Biotechnology Industry

Suggested Learning Pedagogie
Lecture Using Chalk-Board Video Demonstrations Presentations

Unit II

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Unit III

Membrane: Materials, Preparation and Characterization 3.1 Membrane Materials: 3.1.1 Cellulose Acetate 3.1.2 Polyamides 3.1.3 Polysulfone 3.1.4 Polymides 3.1.5 Polytetrafluoroethylene (PTFE) 3.1.6 Ceramic 3.2 Methods of Membrane Preparation: 3.2.1 Phase Inversion 3.2.2 Sol-gel Peptization 3.2.3 Film Stretching 3.3 Characterization of Membranes: 3.3.1 Molecular Weight Cut-off (MWCO) 3.3.2 Microbial Challenge Test 3.3.3 Bubble Point Test 3.3.4 Liquid Displacement 3.3.5 Permporometry

Suggested Learning Pedagogie
Lecture Using Chalk-Board Model Demonstration Demonstration E-Learning and Online Learning

Unit IV

Microfiltration (MF) and Ultrafiltration (UF) 4.1 Microfiltration: 4.1.1 Transport Mechanism 4.1.2 Retention and Flow Characteristics 4.1.3 Membrane Fouling and its control 4.1.4 Energy Considerations 4.1.5 Industrial Applications. 4.2 Ultrafiltration: 4.2.1 Transport Mechanism 4.2.2 Retention and Flow Characteristics 4.2.3 Membrane Fouling and its control 4.2.4 Energy Considerations 4.2.5 Applications

Suggested Learning Pedagogie
Lecture Using Chalk-Board Video Demonstrations Site/Industry Visit Case-Based Learning

Unit V

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List of Experiments:

1. *Determination of Flux of a given membrane for different Trans Membrane Pressure.
2. *Determination of Flux of a given membrane for different Feed Concentration.
3. *Comparison of Pure Water Permeability of a given membrane for Dead End and Cross Flow patterns
4. *Preparation of a Flat Sheet Membrane from a given polymeric material by using Phase Inversion Method
5. Determination of Molecular Weight of Cutoff of a given Membrane.
6. *Determination of Integrity of a given membrane by using Bubble Point Test method.
7. Determination of percentage rejection of Settleable Solids from given sample using Microfiltration Membrane Separation Process.
8. Determination of percentage rejection of Suspended Solids from given sample by using Ultrafiltration Membrane Separation Process.
9. Determination of percentage recovery of dissolved solids in a given solution by Nanofiltration process.
10. *Determination of percentage recovery of dissolved solids in a given solution by Reverse Osmosis process.

Self Learning

Micro Project

• Case Study on Industrial Applications:

Identify and present a case study on the use of membrane technology in one of the following industries: chemical, pharmaceutical, food and dairy, or biotechnology. Include the specific process, type of membrane used, and the advantages and challenges encountered.

• Flow Pattern Simulation

Simulate different flow patterns (complete mixing, co-current, cross-flow, counter-current) using a software tool.
Analyze the effects of each flow pattern on membrane performance.

• Membrane Preparation Techniques

Prepare a report on various methods of membrane preparation (phase inversion, sol-gel peptization, film stretching).
Include practical steps, materials required, and possible challenges.

• Fouling Control Measures

Develop a comprehensive guide on different types of membrane fouling and the respective control measures. Include preventive maintenance schedules and cleaning protocols.

• Design and Operating Parameters Optimization

Conduct a study on the impact of design and operating parameters on the performance of NF and RO processes. Use simulation tools to optimize these parameters for a specific application.

Assignment

• Membrane Classification and Comparison

Create a detailed classification chart of different types of membranes (microporous, asymmetric, thin-film composite, electrically charged, inorganic). Compare their properties, advantages, and disadvantages.

• Material Selection for Membrane Preparation

Research and choose suitable materials for membrane preparation based on specific separation requirements. Justify your choice based on the material properties and application needs.

• Factors Influencing MF and UF Processes

Identify and explain the key factors influencing retention and flow characteristics in MF and UF processes. Provide real-life examples where these factors are critical.

• Comparative Analysis of Membrane Processes

Compare NF and RO with MF and UF in terms of pore size, separation capabilities, and typical applications. Create a comparative table for easy reference.

Activity

• Real-Life Industrial Application

As a group, select an industrial process that uses membrane technology. Visit the site (if possible) or research extensively to prepare a detailed report on the application, challenges, and solutions.

• Analysis of Different Membranes

Conduct a series of experiments to compare the performance of different types of membranes (e.g., MF, UF, NF, RO) under similar conditions. Analyze and present the data, highlighting the strengths and weaknesses of each membrane type.

• Workshop: Membrane Cleaning Techniques

Organize a workshop on various membrane cleaning techniques. Each group will prepare and demonstrate a cleaning method (e.g., chemical cleaning, backwashing, enzymatic cleaning) and discuss its effectiveness and impact on membrane lifespan.

• Field Visit: Industrial Membrane Plant Tour

Organize a field visit to an industrial plant using membrane technology. Observe the operations, interact with professionals, and gather information on the practical challenges and solutions. Prepare a report and presentation on your observations and insights.

Laboratory Equipment

For the complete Syllabus, results, class timetable, and many other features kindly download the iStudy App
It is a lightweight, easy to use, no images, and no pdfs platform to make students’s lives easier.
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Learning Materials

1. Richard Baker Membrane Technology and Applications Publisher:Wiley ISBN:978-0470743720
2. Kaushik Nath Membrane Separation Processes Publisher:PHI Learning ISBN:978-8120335325
3. Marcel Mulder Basic Principles of Membrane Technology Publisher:Springer: ISBN:978-9401058545
4. J.G. Crespo and K.W. Boddeker Membrane Processes in Separation and Purification Publisher:Springer ISBN:978-0792323586
5. Norman N Li, Anthony G. Fane, W. S. Winston Ho, Takeshi Matsuura Advanced Membrane Technology and Applications Publisher:Wiley ISBN:978-0471731672

Learning Websites

1. COMSOL Multiphysics This software is highly versatile and is used for simulating various physical processes, including those in membrane technology. It can model the flow patterns, pressure distributions, and solute concentrations in membrane systems.
2. Aspen Plus Aspen Plus is a process simulation software used in chemical engineering. It can model and optimize membrane separation processes, including reverse osmosis, ultrafiltration, and nanofiltration.
3. MATLAB MATLAB is a powerful tool for numerical analysis and simulation. It can be used to model membrane processes, develop control algorithms, and analyze experimental data.
4. CHEMCAD CHEMCAD is another process simulation software that can be used to model membrane separation processes, including the design and analysis of membrane systems.
5. NPTEL (National Programme on Technology Enhanced Learning.) NPTEL offers free online courses and video lectures in engineering and science, including topics on membrane technology. URL:https://onlinecourses.nptel.ac.in/noc22_ch14/preview URL:https://nptel.ac.in/courses/103/106/103106139/ URL:https://www.youtube.com/user/nptelhrd
6. MIT OpenCourseWare (Massachusetts Institute of Technology) MIT OCW provides free course materials from a wide range of subjects, including chemical engineering and membrane technology.
7. Coursera Coursera offers free courses from universities and institutions around the world. Look for courses on membrane technology, chemical engineering, and related subjects.
8. ScienceDirect (Open Access Articles) ScienceDirect provides access to open access articles from the Journal of Membrane Science.
9. YouTube YouTube hosts many educational channels and lectures on membrane technology. Channels like MIT OpenCourse Ware, NPTEL, and others provide valuable content. URL:https://www.youtube.com/results? search_query=membrane+technology+education
10. Udemy Udemy offers a variety of courses on membrane technology and chemical engineering. Courses are self-paced, often affordable, and come with lifetime access once purchased. URL:https://www.udemy.com/courses/search/? q=membrane%20technology&src=sac&kw=membrane%20tech URL:https://www.udemy.com/courses/search/? q=chemical%20engineering&src=sac&kw=chemical%20engi
11. Some Important Links Membrane System: Terminology https://youtu.be/yc4NDVF6Q98?si=wroKIhnE5I5odFPl Complete Course on Membrane Technology by IIT Madras https://www.youtube.com/playlist? list=PL0x4e4H6SQmhY5XZkamFSdtg0IlBTafMM Membrane Separation: An Overview https://www.facebook.com/share/v/uPGckPq2LBkkU1Gx/ https://youtu.be/rjkvAqtsW_Y?si=6ZSlPNm6fGmMN_ph Membrane Modules: Plate and Frame Membrane Modules: How do they work? https://youtu.be/unG-jfloeHE?si=X7yJURoTnjB85w_- Spiral Wound Membrane Modules: How do they work? https://youtu.be/HFBT-x0VFQ0?si=ANEEEcqqphoe-B9w https://youtu.be/3pgzbkc5WIo?si=JgdVShxhDp7JgmTJ Hollow Fibre Membrane Modules: How do they work? https://youtu.be/B11JuAjOF-M?si=QddfOg3sQ6EZCgd1 https://youtu.be/unG-jfloeHE?si=2endWZkRjkCdxFqk Tubular Membrane Modules: How do they work? https://youtu.be/24Eg_HcWMXY?si=p9wx6ttIHtaJcCIA Membrane Separation Processes: Microfiltration Membrane Separation Process: https://youtu.be/9TZzXODgq3Y?si=CFd3urq4w7USA5M3 Ultrafiltration Membrane Separation Process: https://youtu.be/XyJ-_xIOKEE?si=YHkXPS04lAZBmL81 Nanofiltration Membrane Separation Process: https://youtu.be/RMxbC1IitGg?si=TgBRJEg2xtYzXLr3 Osmosis: The concept https://youtu.be/y1LRXUzQFXU?si=SupIQDANg8D2nOvM Reverse Osmosis: The Concept https://youtu.be/IxnkmKgbJ0Y?si=brTZ_OfuSRyJW4fN https://youtu.be/rsyGG49SVbU?si=p27EVEI_PeQw6XfW Reverse Osmosis Membrane Separation Process: https://youtu.be/RMxbC1IitGg?si=TgBRJEg2xtYzXLr3 Dialysis Membrane Separation Process: https://youtu.be/YviI4AjKHsg?si=1KGnCaoL-JKVcsnt Electrodialysis Membrane Separation Process: https://youtu.be/_hPgUhXvxXQ?si=0XO6GilXPaxN-Qd_

For detail Syllabus of all other subjects of Chemical Engineering, K scheme do visit Chemical Engineering 5th Sem Syllabus for K scheme.

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