FALL

CHEMICAL ENGINEERING LABORATORY-I
Module Code Number / KMÜ-401
Number of ECTS Credits / 2
Hours / Week / 4 hours/week
Module Lecturer / Dr. H.Soner ALTUNDOĞAN (Coordinator)
Year / Term / 4th / Fall
Type of Course
(Compulsory / Elective) / Compulsory
Pre requisites / Recommended / None / Fluid Mechanics, Introduction to Transport Phenomena, Heat Transfer, Mass Transfer, Reaction Engineering-I
Module Contents / Rotameters. Friction lost in pipes. Determination of Diffusion coefficients. Heat transfer by conduction. Liquid phase chemical reactors. Laminar flow study system. Basic measurements related to solid particles. Grinding. Double-pipe heat exchanger. Sedimentation and hydraulic classification.
Aims and Objectives of the module / The aim of this module is to provide experience in application of basic mechanical processes, transport phenomena and chemical reaction engineering knowledge through experiments.
Method of assessment / The midterm score is determined by summing the averages of written quizzes (40%), experiment interest points (10%) and individual report points (% 50). Final score is determined by summing the individual experiment evaluation point (30 %) and one written final exam (70 %). Finally, the midterm score (40%) and final score (60%).
Teaching Language / Turkish
Textbook /
recommended readings / Chemical Engineering Laboratory Textbook, F.U. Chemical Engineering Department, 1997.
SEPARATION PROCESSES
Module Code Number / KMÜ-415
Number of ECTS Credits / 5
Hours / Week / 3 hours/week
Module Lecturer / Dr. Cevdet AKOSMAN
Year / Term / 4th/ Fall
Type of Course
(Compulsory / Elective) / Compulsory
Pre requisites / Recommended / None/Physical chemistry, Mass transfer
Module Contents / Phase equilibria. Analysis and calculations of separation processes based on phase equilibria and diffusion. Equilibrium stage and continuous counter current operations. Calculations of packed bed columns in two-phase systems. Calculations of separation equipment based on distillation, gas absorption, extraction and drying.
Aims and Objectives of the module / The aim of this module is to provide an introduction to the basic concepts and techniques used in separation processes described in the module contents.
Method of assessment / One written midterm exam (40%) and one written final exam (60%)
Teaching Language / Turkish
Textbook /
recommended readings / Transport Processes and Unit Operations (3rd ed) by Christi J. Geankoplis, Prentice-Hall International Inc., New Jersey, 1993.
REACTION ENGINEERING-II
Module Code Number / KMÜ-421
Number of ECTS Credits / 5
Hours / Week / 3 hours/week
Module Lecturer / Dr. Dursun ÖZER
Year / Term / 4th / Fall
Type of Course
(Compulsory / Elective) / Compulsory
Pre requisites / Recommended / None /Reaction Engineering-I, Thermodynamics-II
Module Contents / Design and analysis of non-isothermal, recycle, autocatalytic and multiple reactors. Choosing the right kind of the reactor for multiple reactions. The kinetics of non-catalytic fluid-particle reactions and design of fluid-particle reactors. Non-ideal reactors.
Aims and Objectives of the module / The aim of this module is to train students to analyse and design non-isothermal reactor with multiple reactions and design of non-ideal reactors.
Method of assessment / One written midterm exam (40%) and one written final exam (60%)
Teaching Language / Turkish
Textbook /
recommended readings / 1. Fogler, H. S., Elements of Chemical Reaction Engineering, 2nd ed., Prentice-Hall International Inc., New Jersey, 1992.
2. Smith, J. M., Chemical Engineering Kinetics, 3rd ed., McGraw-Hill International Inc., Singapore, 1981.
CHEMICAL ENGINEERING DESIGN-I
Module Code Number / KMÜ-423
Number of ECTS Credits / 5
Hours / Week / 5 hours/week
Module Lecturer / Dr. Fikret TÜMEN
Year / Term / 4th / Fall
Type of Course
(Compulsory / Elective) / Compulsory
Pre requisites / Recommended / None / Stoichiometry-I, Stoichiometry-II, Basic Computer Science, Economics, Fluid Mechanics, Heat Transfer, Mass Transfer, Reaction Engineering-I, Reaction Engineering-II
Module Contents / Analysis of industrial processes point of view of economy, environment and occupational health. Plant location selection. Principles of equipment and plant layout. Optimisation and decision in equipment and process design. Design principles and applications in typical processes. Feasibility studies. Using of computer software in engineering design.
Aims and Objectives of the module / The aim of this module is to provide knowledge and skills to understand and design a chemical process and to provide experience in using process simulators (ChemCAD) for chemical plant design.
Method of assessment / The midterm score is determined by summing the written exam (80%) and ChemCAD application exam (20%). Final score is determined by one written exam. Finally, midterm score (40%) and final score (60%) build the success degree. The students can take make-up exam to enhance the midterm score.
Teaching Language / Turkish
Textbook /
recommended readings / 1. Aksöz, H.İ., Fabrika Organizasyonu ve Yönetimi, I. Kısım, Ege Üniv. Basımevi, Ege Üniv. Müh. Fak. Yayınları No. 12 , Bornova, İzmir, 1987.
2. George E. Dieter, Engineering Design- A Materials and Processing Approach, Second Ed., McGraw Hill, 1991.
3. Max S. Peters, Klaus D. Timmerhaus, Plant Design and Economics for Chemical Engineers, Fourth Ed., McGraw Hill, 1991.
PROCESS CONTROL
Module Code Number / KMÜ-425
Number of ECTS Credits / 5
Hours / Week / 3 hours/week
Module Lecturer / Dr. Gülbeyi Dursun
Year / Term / 4th / Fall
Type of Course
(Compulsory / Elective) / Compulsory
Pre requisites / Recommended / None/
Module Contents / Introduction to control systems. Differential equations and linear systems. The Laplace transforms. Transfer functions. Block diagrams. Transfer functions of systems. Transient response of simple control systems. Control system design by frequency response.
Aims and Objectives of the module / The aim of this course is to provide a method of analysis used in the control area to look at a simple control system design problem.
Method of assessment / One written midterm exam (40%) and one written final exam (60%)
Teaching Language / Turkish
Textbook /
recommended readings / 1.Coughanowr, D. R. and Koppel, L. B., Process Systems Analysis and Control, McGraw-Hill Inc., Singapore, 1965
ORGANIC CHEMICAL TECHNOLOGIES
Module Code Number / KMÜ-433
Number of ECTS Credits / 5
Hours / Week / 3 hours/week
Module Lecturer / Dr. H.Soner ALTUNDOĞAN
Year / Term / 7th / Fall
Type of Course
(Compulsory / Elective) / Compulsory
Pre requisites / Recommended / None / Organic Chemistry
Module Contents / Sugar technology. Paper technology, cellulose and its derivatives, synthetic fibre. Leather technology. Fat and oil technology. Soap and detergent technology. Petrochemical technology.
Aims and Objectives of the module / The aim of this module is to provide basic knowledge on significant organic chemical technologies.
Method of assessment / One written midterm exam (40%) and one written final exam (60%). The students can take make-up exam to enhance the midterm score. The homework and the presentation are also added directly to the midterm exam score.
Teaching Language / Turkish
Textbook /
recommended readings / Organic Chemical Technologies Lecture Notes
INTRODUCTION TO BIOTECHNOLOGY
Module Code Number / KMÜ-427
Number of ECTS Credits / 3
Hours / Week / 2 hours/week
Module Lecturer / Dr. Dursun ÖZER
Year / Term / 4th / Fall
Type of Course
(Compulsory / Elective) / Elective
Pre requisites / Recommended / None /
Module Contents / Definition of biotechnology. Development of biotechnology. Industrial micro-organisms. Preparing culture medium. Cell growth phases. Microbial kinetics. Sterilisation methods. Bioreactors. Downstream processing. Waste water treatment. Enzymes.
Aims and Objectives of the module / The aim of this module is to an introduction to the basic concepts and techniques used in biotechnology described in the module contents.
Method of assessment / One written midterm exam (40%) and one written final exam (60%)
Teaching Language / Turkish
Textbook /
recommended readings / 1. Lee,M.J., Biochemical Engineering, Prentice Hall ,New Jersey, 1992.
2. Telefoncu, A., Biyoteknoloji, Ege Üni. Basımevi, 1995.
INTRODUCTION TO EXTRACTIVE METALLURGY
Module Code Number / KMÜ-431
Number of ECTS Credits / 3
Hours / Week / 2hours/week
Module Lecturer / Dr Melek YILGIN
Year / Term / 4th / Fall
Type of Course
(Compulsory / Elective) / Elective
Pre requisites / Recommended / None /
Module Contents / Preparing ore (crushing, grinding, classifying). Concentrating ore (gravity method, flotation, magnetic method). Roasting, sintering, reduction, refining, metallurgical sludges.
Aims and Objectives of the module / The aim of this module is to provide an introduction to the basis of three alternative approaches to metal extraction and refining: pyro-metallurgy, hydrometallurgy and electrometallurgy in Extractive Metallurgy described in the module contents.
Method of assessment / One written midterm exam (40%) and one written final exam (60%)
Teaching Language / Turkish
Textbook /
recommended readings / Erdal, I., Ekstraktif Metalurji,Ankara,1976; Bor,F.Y., Ekstraktif Metalurji Prensipleri Kısım II,İstanbul Teknik Üniversite Matbaası, Gümüşsuyu,1989; Önal,G., Ateşok,G.,Cevher Hazırlasma El Kitabı, İstanbul,1994.
INTRODUCTION TO COAL TECHNOLOGY
Module Code Number / KMÜ-437
Number of ECTS Credits / 3
Hours / Week / 2 hours/week
Module Lecturer / Dr. Dursun PEHLİVAN
Year / Term / 4th / Fall
Type of Course
(Compulsory / Elective) / Elective
Pre requisites / Recommended / None / Organic Chemistry
Module Contents / Energy Concept, Kinds, Conversion, Sources. Main Fuels. Origin and Formation of Coal. Diagenesis and Metamorphism. Maturation of Coal and Coal Series. Physical Composition of Coal. Important Industry-Related Properties of Coal. Chemical Properties of Coal. Coal Mining, Storing and Preparation. Coking and Gasification of Coal.
Aims and Objectives of the module / The aim of this course is to provide students a simple way of understanding the energy options of the modern society, with main emphasis on the coal as an important energy source, coal forming processes, coal properties and, the scientific and engineering principles of coal technology.
Method of assessment / One written midterm (40%) and one final exam (60%)
Teaching Language / Turkish
Textbook /
recommended readings / 1.N. Berkowitz, An Introduction to Coal Technology, New York, Academic Press, 1979.
2.J.H. Harker, J.R. Backhurst, Fuel and Energy, London, Academic Press, 1981
3.Internet sources
MECHANICAL SEPARATION PROCESSES
Module Code Number / KMÜ-411
Number of ECTS Credits / 3
Hours / Week / 2 hours/week
Module Lecturer / Dr. İnci TÜRKTOĞRUL
Year / Term / 4rth/ Fall
Type of Course
(Compulsory / Elective) / Elective
Pre requisites / Recommended / None /
Module Contents / The principles of mechanical separation processes. The systems, which have solid particle and its properties. Classification. Solid-fluid separation processes: Filtration. Solid-gas separation processes: Electrofilters, cyclones.
Aims and Objectives of the module / The aim of this module is to provide an introduction to the basic concepts and techniques used mechanical separation processes described in the module contents.
Method of assessment / One written midterm exam (40%) and one written final exam (60%)
Teaching Language / Turkish
Textbook /
recommended readings / Geankoplis, C. J., Transport Processes and Unit Operations, 3rd ed., Prentice-Hall International Inc., New Jersey, 1993.
INTRODUCTION TO ENZYME KINETICS
Module Code Number / KMÜ-429
Number of ECTS Credits / 3
Hours / Week / 2 hours/week
Module Lecturer / Dr. Dursun ÖZER
Year / Term / 4th / Fall
Type of Course
(Compulsory / Elective) / Elective
Pre requisites / Recommended / None /
Module Contents / Introduction to enzymes. Production and purification of enzymes. Enzymes immobilization. Kinetics of unreactant enzymes. Simple and mixed type inhibition systems. Design of enzymes reactors with simple kinetics.
Aims and Objectives of the module / The aim of this module is to provide an introduction to the basic concepts in enzymes and knowledge for design of enzymes reactors.
Method of assessment / One written midterm exam (40%) and one written final exam (60%)
Teaching Language / Turkish
Textbook /
recommended readings / 1. Segel, I. H. Enzyme Kinetics, John Wiley & Sons, USA, 1975.
2. Telefoncu, A. (Editör), Enzimoloji, Kuşadası, 1997.
COMBUSTION AND FUEL TECHNOLOGY
Module Code Number / KMÜ-435
Number of ECTS Credits / 3
Hours / Week / 2 hours/week
Module Lecturer / Dr. Fethi KAMIŞLI
Year / Term / 4th / Fall
Type of Course
(Compulsory / Elective) / Elective
Pre requisites / Recommended / None / Stoichiometry-I, Stoichiometry-II
Module Contents / Fuels used industry. Properties and industrial analyse of coal. Liquid and gaseous fuels. Combustion stoichiometry, exhaust composition, relationship between exhaust oxygen and mixture. Determination of stoichiometric and excess oxygen. Control of combustion efficiency. Determination of factors affected on combustion efficiency. Theory of chain reactions. Determination of thermal efficiency. The lowest and highest thermal values of reactions. Theoretical and adiabatic flame temperature. Industrial combustion systems.
Aims and Objectives of the module / The aim of this module is to provide an introduction to the basic concepts and techniques used in combustion and fuel technology described in the module contents.
Method of assessment / One written midterm exam (40%) and one written final exam (60%)
Teaching Language / Turkish
Textbook /
recommended readings / 1. Elementary Principle of Chemical Processes by Felder R. M. and Rousseau R. W. Wiley, 2002.
2. Stokiometri by Yalçın H. ve Gürü, M., Palme Yayıncılık, Ankara/Türkiye, 2000.
3. Sınai Stokiometri by Çataltaş İ., Inkılap ve Aka Yayınevi, İstanbul /Türkiye, 1982.
INTERNSHIP-II (INDUSTRIAL)
Module Code Number / -
Number of ECTS Credits / 2
Hours / Week / 25 days/term
Module Lecturer / -
Year / Term / 3rd/ Spring
Type of Course
(Compulsory / Elective) / Compulsory
Pre requisites / Recommended / None
Module Contents / Carry out practical training (25 days) in an industrial setting or a research institute. Apply the knowledge acquired in earlier coursework to a real-life situation under supervision of qualified personnel.
Aims and Objectives of the module / The aim of this module is to provide a real-life experience in the application of knowledge acquired in earlier coursework, and the identification, formulation and solution of engineering problems.
Method of assessment / One written report (70%) and one final exam (oral presentation) (30%)
Teaching Language / Turkish
Textbook /
recommended readings / -

SPRING

CHEMICAL ENGINEERING LABORATORY-II
Module Code Number / KMÜ-402
Number of ECTS Credits / 4
Hours / Week / 6 hours/week
Module Lecturer / Dr. H.Soner ALTUNDOĞAN (Coordinator)
Year / Term / 4th / Spring
Type of Course
(Compulsory / Elective) / Compulsory
Pre requisites / Recommended / None / Fluid Mechanics, Introduction to Transport Phenomena, Heat Transfer, Mass Transfer, Process Control, Reaction Engineering-I, Reaction Engineering-II