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UMT 522E
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Course Information
Course Name
Turkish
Endüstriyel Elektrokimyasal Teknolojiler
English
Industrial Electrochemical Technologies
Course Code
UMT 522E
Credit
Lecture
(hour/week)
Recitation
(hour/week)
Laboratory
(hour/week)
Semester
-
2
2
-
-
Course Language
English
Course Coordinator
Güldem Kartal Şireli
Course Objectives
1. Reinforcing the importance of electrochemical concepts in industrial applications and
learning the significant considerations in electrolytic reactor design in terms of techno-economic assessments
2. Learning the electrolytic metal and metal salts production processes, the environmental applications (production of high temperature metals and alloys, effluent treatment, recovery of metals, electrodialysis, flocculation, coagulation, etc.) and their modern technological developments
3. Scrutinizing the molten salt systems and important parameters in the cell design with their industrial integration from different sectors.
4. Learning the electrochemical shaping techniques in material machining with their principals
5. Learning the electrochemical applications in energy systems with technological developments and expectations
Course Description
Electrochemical cells, material selection criteria and system design parameters will be scrutinized by taking techno-economic approaches into account. Correspondingly, productions of metals and alloys from aqueous and molten salts systems, electro-shaping techniques, environmental and energy applications (i.e. effluent treatment, batteries and fuel cells, etc.) as well as synthesis of compounds will be discussed.
Course Outcomes
The students who successfully pass this course gain knowledge, skill and competency in the following subjects;
1. Importance of electrochemical concepts in industrial application and the ideas behind electrochemical engineering using his/her basic science knowledge
2. Important considerations in electrolytic reactor design, material selection criteria, and parameters in scale-up by taking techno-economic assessments into account.
3. Electrolytic production of high temperature metals and alloys along with their principles
4. Concepts in the molten salt systems, and important parameters in the cell design and their applications in the productions of metals and alloys as well as surface modification techniques.
5. Electrochemical machining/forming techniques and their principles.
6. Environmental applications; effluent treatment, metal ion removal and recovery, electrodialysis, flocculation, coagulation, etc.
7. Electrochemical synthesis of compounds and their general concepts with modern technological developments
8. The electrochemical applications in energy systems
Pre-requisite(s)
no
Required Facilities
no
Other
.
Textbook
1. Derek Pletcher and Frank C. Walsh “Industrial Electrochemistry” 2nd ed. Blackie Academic & Professional, Chapman & Hall, Glasgow, UK 1993.
2. Gerhard Kreysa, Ken-ichiro Ota, Robert F. Savinell, “Encyclopedia of Applied Electrochemistry”, Springer, New York, 2014.
3. F. Goodridge and K. Scott “Electrochemical Process Engineering, A guide to Design of Electrolytic Plant” Plenum Press, New York 1995.
4. Jan B. Talbot, James M. Fenton, Brian E. Conway, B.V. Tilak, “Fundamentals of electrochemical process design: a tutorial and Anodic processes: Fundamental and applied aspects” The electrochemical Society, Pennington New Jersy 1995.
5. Frederic Lantelme and Henri Groult “Molten Salts Chemisrty”, Elsevier, USA, 2013.
Other References
1. Derek Pletcher and Frank C. Walsh “Industrial Electrochemistry” 2nd ed. Blackie Academic & Professional, Chapman & Hall, Glasgow, UK 1993.
2. Gerhard Kreysa, Ken-ichiro Ota, Robert F. Savinell, “Encyclopedia of Applied Electrochemistry”, Springer, New York, 2014.
3. F. Goodridge and K. Scott “Electrochemical Process Engineering, A guide to Design of Electrolytic Plant” Plenum Press, New York 1995.
4. Jan B. Talbot, James M. Fenton, Brian E. Conway, B.V. Tilak, “Fundamentals of electrochemical process design: a tutorial and Anodic processes: Fundamental and applied aspects” The electrochemical Society, Pennington New Jersy 1995.
5. Frederic Lantelme and Henri Groult “Molten Salts Chemisrty”, Elsevier, USA, 2013.
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