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KMM 428E
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Course Information
Course Name
Turkish
Özel Ayırma Teknikleri
English
Special Seperation Techniques
Course Code
KMM 428E
Credit
Lecture
(hour/week)
Recitation
(hour/week)
Laboratory
(hour/week)
Semester
-
3
3
-
-
Course Language
English
Course Coordinator
Nil Özbek
Course Objectives
1. To inform about innovative separation methods
2. To introduce innovative, sustainable and environmentally sound separation methods
3. To explain the techniques used in the selection of separation methods used in the industry.
4. To embrace the importance of lifelong learning
5. To develop literature research and technical report writing skills
6. To develop oral presentation skills
Course Description
Fundamentals of Separation Processes, Ion Exchange Separations, Large Scale Chromatography, Ultrafiltration and Reverse Osmosis, Dialysis and Electrodialysis, Supercritical Extraction and Azeotropic Distillation Processes, Sedimentation and Fluidisation Processes, Crystallisation Processes, Drying Processes (freeeze drying, spray drying), Centrifugal Separation Processes, Ion Exchange, Ion exclusion Processes, Gas Separation Processes, Absorption and Stripping, and Advanced Oxidation Processes, Electrochemical Separations
Course Outcomes
Students who pass the course are expected to be able to:
1. have information about innovative separation methods used in chemical engineering applications.
2. have knowledge about innovative, sustainable and environmentally compatible separation methods.
3. analyze the separation processes actively used in industry from the point of view of chemical engineering, and be able to suggest alternative processes.
4. understand the importance of environmental effects in the selection of separation processes and take into account the necessary standards and limitations.
5. work individually
6. will be able to prepare technical writen reports
7. give effective oral presentation
Pre-requisite(s)
Required Facilities
Other
Textbook
1. Seader, J. D., Henley, E. J., & Roper, D. K. (2011). Separation process principles. New York: Wiley.
2. Sırkar, K.M. (2014). Separation of Molecules, Macromolecules and Particles, Principles, Phenomena and Processes, UK: Cambridge Press.
3. Wilson, I., Poole, C. (2009) Handbook of Methods and Instrumentation in Separation Science, UK: Elsevier.
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