GAZI UNIVERSITY INFORMATION PACKAGE - 2019 ACADEMIC YEAR

COURSE DESCRIPTION

ADVANCED MEMBRANE TECHNOLOGY/5331309

Course Title:	ADVANCED MEMBRANE TECHNOLOGY
Credits	3	ECTS	7.5
Course Semester	1	Type of The Course	Elective

COURSE INFORMATION

-- (CATALOG CONTENT)

-- (TEXTBOOK)

-- (SUPPLEMENTARY TEXTBOOK)

1. Edited by:Z.F. Cui and H.S. Muralidhara, “Membrane Technology”, 1st Edition, Elsevier Ltd, 2010.
2. Nidal Hilal , Mohamed Khayet , and Chris J . Wright, “Membrane Modification Technology and Applications”, CRC Press (2012).
3. Karl W. Böddeker, “Liquid Separations with Membranes: An Introduction to Barrier Interference, Springer Press, 1ST Edition (2018).
4. Fried, Joel R., “Polymer Science and Technology”, 2nd Edition, Chapter 12 Prentice Hall, NewJersey, (2003).
5. Mulder, M., “Basic Principles of Membrane Technology”, Kluwer Academic  Publisher, (1996).
6. Kontturi,K., Murtomaki, L.,”Transport Processes at Electrodes and In Membranes”, Helsinki University of Technology, (2002).
7. Ho and Sirkar (editörler), “Membrane Handbook”, Chapman Hall, (1992). 
8. Sourirajan, S. and Matsuura, T., “Reverse Osmosis/Ultrafiltration Principles”, National Research Council of Canada, Ottawa, Canada, (1985).
   9. Rautenbach, R. and Albrecht, R., “Membrane Processes”, John Wiley, (1989).
10. Noble, R. D. and Stern, S. A., “Membrane Separations Technology: Principles and Applications”, Elsevier, (1995).
11. Howell, J.A., Sanchez, V., and Field, R. W. (EDITORS), Membranes in    Bioprocessing, Chapman Hall, (1993). 
12. Kesting, R. E.

-- (PREREQUISITES AND CO-REQUISITES)

-- LANGUAGE OF INSTRUCTION

Turkish

-- COURSE OBJECTIVES

-- COURSE LEARNING OUTCOMES

Having knowledge about the membrane materials cts.
Gain the knowledge about thermodynamic teories, solubility parameters, and synthesis methods and theories related with membrane synthesis.
Having knowledge about the membrane characterization techniques and ability of analysis of charaecterization data (pore size and pore size distribution, surface charge distribution, etc.)
Having knowledge about the transport theories of porous, non-porous and ion exchange membranes
Having ability of presentation of the results of her/his studies and investigations orally.
Having ability of the establishment of written establishment by means of the reports of homework and/or projects.
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-- MODE OF DELIVERY

Face to face

--WEEKLY SCHEDULE
1. Week	Introduction: Definitions and application areas.
2. Week	Membrane Materials
3. Week	Membrane Synthesis : Termodynamic theory
4. Week	Membrane Synthesis : Solubility parameters
5. Week	Membrane Synthesis: Methods and related theories.
6. Week	Membrane Characterization: Pore size and structure (1ST Midterm).
7. Week	Membrane Characterization: Surface charge distribution and appearance.
8. Week	Transport Theories for Non-porous Membranes.
9. Week	Transport Theories for Porous Membranes.
10. Week	Transport Theories for Ionic Membranes
11. Week	Transport in Membranes: Donnan equilibrium
12. Week	Transport in Membranes: Expanded Nernst-Plank equation (2ND Midterm Exam).
13. Week	Application: Separation of natural organic materials by using membrane
14. Week	Application: Removal of ions by using membrane.
15. Week	-
16. Week	-

-- TEACHING and LEARNING METHODS

-- ASSESSMENT CRITERIA

	Quantity	Total Weighting (%)
Midterm Exams	2	30
Assignment	4	10
Application	0	0
Projects	1	20
Practice	0	0
Quiz	0	0

Percent of In-term Studies		60
Percentage of Final Exam to Total Score		40

-- WORKLOAD

Activity	Total Number of Weeks	Duration (weekly hour)	Total Period Work Load
Weekly Theoretical Course Hours	14	3	42
Weekly Tutorial Hours	0	0	0
Reading Tasks	14	3	42
Searching in Internet and Library	14	3	42
Material Design and Implementation	0	0	0
Report Preparing	12	3	36
Preparing a Presentation	2	3	6
Presentation	1	1	1
Midterm Exam and Preperation for Midterm Exam	4	5	20
Final Exam and Preperation for Final Exam	2	5	10
Other (should be emphasized)	0	0	0
TOTAL WORKLOAD:			199
TOTAL WORKLOAD / 25:			7.96
Course Credit (ECTS):			7.5

-- COURSE'S CONTRIBUTION TO PROGRAM

NO	PROGRAM LEARNING OUTCOMES	1	2	3	4	5
1				X
2			X
3			X
4					X
5				X
6		X
7					X
8			X
9					X
10				X
11			X
12		X
13			X
14					X
15				X
16					X
17						X
18					X
19				X
20			X

-- NAME OF LECTURER(S)

(Prof.Dr. İrfan AR)

-- WEB SITE(S) OF LECTURER(S)

(http://websitem.gazi.edu.tr/site/irfanar)

-- EMAIL(S) OF LECTURER(S)

(irfanar@gazi.edu.tr)

Gazi University

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GAZI UNIVERSITY INFORMATION PACKAGE - 2019 ACADEMIC YEAR