Second Cycle Programmes    (Master's Degree)
Master (with thesis) - Institute for Graduate Studies in Pure and Applied Sciences - Chemical Engineering - Chemical Engineering
General Description  |  Key Learning Outcomes  |  Course Structure Diagram with Credits
General Description ^
History
Marmara University Engineering Faculty (MUEF) was established at 27 June 1987. MUEF started instruction in the education year of 1990-1991. There were computer engineering, environmental engineering and industrial engineering branches. Then, in 1997 mechanical engineering department, in 2000 material and metallurgical engineering department, in 2002 chemical engineering department started instruction. After starting Bachelor Education, Chemical Engineering Master's courses and Ph.D. Courses were began in the Institute for Graduate Studies in Pure and Applied Scieces.
Qualification Awarded
Students who are academically succesful get “Master of Science Degree in Chemical Engineering".
Specific Admission Requirements
Admission and Registration of Master Programme are done according to “Regulation of Graduate Education and Examination (Article II- Admission to Graduate Programmes). The language of instruction during the Master of Science degree education in Chemical Engineering Department is English. The candidates who fulfill the requirements for acceptance conditions determined by the Institute for Graduate Studies in Pure and Applied Sciences make their applications at the period specified in the Academic Calendar. The candidates whose applications are accepted must have the scientific examinations given by the main scientific disciplines at the declared days. The candidates who succeeded in the scientific examination and fulfill the requirements for registration conditions to Master programme of the Institute for Graduate Studies in Pure and Applied Sciences are registered respecting to the quotas.
Specific Arrangements For Recognition Of Prior Learning (Formal, Non-Formal and Informal)
The recognition of the previous formal education, interdisciplinary transfers and transfers from two year vacational schools (after the completetion of the high school degree) and transitions between universities are executed according to “The Legislation on the Post Graduate Programmes Education and Instruction” determined by The Council of Higher Education.
Qualification Requirements and Regulations
The language of education is English. The education period is 4 academic terms. Completing 60 ECTS credits after succeeding all the courses in the Department Curriculum and by writing and defending the master thesis, it is adequate to graduate.
Profile of The Programme
Marmara University Chemical Engineering Master Programme is arranged to respond the latest developments in chemical engineering field either in our country or in the world, and also it is qualified in preparing the students to sustainable technologies of the future. In the newest technology equipped laboratories fuel-heat, unit operations, reaction engineering applications are performed. In Chemical Engineering Master of Science Programme, it is aimed to gain an ability to master fundamental and applied science principles; an ability to master and apply chemical science principles in advanced level; an ability to gain understanding of engineering science by composing, discussing, and solving complex problems; an ability to understand chemical engineering discipline and focalized sub-discipline at levels clearly exceeding undergraduate expectations; an ability to use literature, techniques, and modern engineering tools necessary for scientific research practice; an ability to apply masters level knowledge in a specialized area of chemical engineering field; an ability to conduct research and write a thesis under adviser supervision; publish contributions to their area of study; learn and apply the rules of scientific ethics in research and publications.
Occupational Profiles of Graduates With Examples
Our graduates can find job opportunities in research institutions such as TUBITAK(Scientific and Technical Research Council of Turkey), and in R&D departments of the companies and senior executive positions inland and abroad owing to the qualified education they acquired in our department.
Access to Further Studies
Graduate students who fullfilled the required conditions of Chemical Engineering programme can be accepted in Ph. D. programmes as long as they satisfy the requirements of the institution they applied whether in their field or not according to their results in post graduate education examinations (ALES, UDS, KPDS).
Examination Regulations, Assessment and Grading
In our department examinations, measurement and evaluation are applied in accordance with the “LEGISLATION OF EXAMINATION AND SUCCESS EVALUATION” prepared by the Institute of Pure and Applied Sciences. Click here for details.
Graduation Requirements
Required conditions to graduate from Chemical Engineering Programme with Master of Science Degree are mentioned in “LEGISLATION OF POST-GRADUATE EDUCATION-INSTRUCTION AND EXAMINATION” submitted by the Institute of Pure and Applied Sciences.
Mode of Study (Full-Time, Part-Time, E-Learning )
Full-Time
Address, Programme Director or Equivalent
Address: Marmara University, Faculty of Engineering, Building D, Goztepe Campus 34722 Istanbul Contact Information: Head of Chemical Engineering Department: Prof. Dr. Neset KADIRGAN nkadirgan@marmara.edu.tr Tel: 0 216 348 02 92 / 717 Department Secretary Tel: 0 216 348 02 92 /723
Facilities
In Marmara University Chemical Engineering Department, researches in the fields of Unit Operations; Energy/Fuel (Renawable or not); Environment, Ecology and Life Cycle Analysis; Polymer Technology; Inorganic Technologies; Biochemical Technologies; Mathematical Modelling and Optimization are carried on. In this concept, our department has Unit Operations Laboratory, Heat and Fuel Laboratory, Polymer Laboratory, Inorganic Technologies Laboratory, Instrumental Analysis Laboratory and Control Laboratory. Besides, Marmara University Chemical Engineering Department carries out not only consultancy services but also analysis operations in various industry branches.
Key Learning Outcomes ^
1 An ability to master fundamental and applied science principles
2 An ability to master and apply chemical science principles in advanced level
3 An ability to gain understanding of engineering science by composing, discussing, and solving complex problems
4 An ability to understand chemical engineering discipline and focalized sub-discipline at levels clearly exceeding undergraduate expectations
5 An ability to use literature, techniques, and modern engineering tools necessary for scientific research practice
6 An ability to apply masters level knowledge in a specialized area of chemical engineering field
7 An ability to conduct research and write a thesis under adviser supervision
8 Publish contributions to their area of study
9 Learn and apply the rules of scientific ethics in research and publications
Course Structure Diagram with Credits ^
T : Theoretical P: Practice
No Course Unit Code Course Unit Title Type of Course T P ECTS
1 CHE-E1..4-YL Elective - 1..4 Elective 12 0 32
Total 12 0 32
No Course Unit Code Course Unit Title Type of Course T P ECTS
1 CHE700 Seminar Compulsory 0 2 4
2 CHE-E5,6,7-YL Elective - 5-6-7 Elective 9 0 24
Total 9 2 28
No Course Unit Code Course Unit Title Type of Course T P ECTS
1 Thesis Compulsory 60
Elective
1 . Semester > CHE-E1..4-YL Elective - 1..4
No Course Unit Code Course Unit Title Type of Course T P ECTS
1 CHE710 Safety in Chemical Engineering Compulsory 3 0 8
2 CHE713 Applied Mathematics in Che. Engineering Compulsory 3 0 8
3 CHE714 Multivariate Analysis in Engineering Compulsory 3 0 8
4 CHE715 Environment Friendly Chemical Engineering Compulsory 3 0 8
5 CHE720 Fire and Fire Protection in Industry Compulsory 3 0 8
6 CHE725 Optimization of Chemical Processes Compulsory 3 0 8
7 CHE735 Transport Phenomena I Compulsory 3 0 8
8 CHE736 Transport Phenomena II Compulsory 3 0 8
9 CHE743 Polymer Physical Chemistry - I Compulsory 3 0 8
10 CHE744 Polymer Physical Chemistry - II Compulsory 3 0 8
11 CHE753 Advanced Chemical Process Control Compulsory 3 0 8
12 CHE754 Fluidization Technology Compulsory 3 0 8
13 CHE755 Principles and Technology of Drying Compulsory 3 0 8
14 CHE762 Experimental Methods for Chemical Engineers Compulsory 3 0 8
15 CHE768 Electrochemical Technologies Compulsory 3 0 8
16 CHE773 Polymer Technology Compulsory 3 0 8
17 CHE775 Polymer Analysis and Characterization Compulsory 3 0 8
18 CHE776 Industrial Crystallization Compulsory 3 0 8
19 CHE780 Advanced Chemical Engineering Thermodynamics Compulsory 3 0 8
20 CHE782 Mathematical Modeling of Energy Systems Compulsory 3 0 8
21 CHE783 Mathematical Modeling and Simulation Compulsory 3 0 8
22 CHE784 Gaseous Fuel Technology Compulsory 3 0 8
23 CHE785 Hydrogen Energy System Compulsory 3 0 8
24 CHE787 Renewable Energy Systems Compulsory 3 0 8
25 CHE789 Advanced Topics in Chemical Engineering I Compulsory 3 0 8
26 CHE790 Advanced Topics in Chemical Engineering II Compulsory 3 0 8
27 CHE793 Application of Management Science in Chemical Industry Compulsory 3 0 8
2 . Semester > CHE-E5,6,7-YL Elective - 5-6-7
No Course Unit Code Course Unit Title Type of Course T P ECTS
1 CHE710 Safety in Chemical Engineering Compulsory 3 0 8
2 CHE713 Applied Mathematics in Che. Engineering Compulsory 3 0 8
3 CHE714 Multivariate Analysis in Engineering Compulsory 3 0 8
4 CHE715 Environment Friendly Chemical Engineering Compulsory 3 0 8
5 CHE720 Fire and Fire Protection in Industry Compulsory 3 0 8
6 CHE725 Optimization of Chemical Processes Compulsory 3 0 8
7 CHE735 Transport Phenomena I Compulsory 3 0 8
8 CHE736 Transport Phenomena II Compulsory 3 0 8
9 CHE743 Polymer Physical Chemistry - I Compulsory 3 0 8
10 CHE744 Polymer Physical Chemistry - II Compulsory 3 0 8
11 CHE753 Advanced Chemical Process Control Compulsory 3 0 8
12 CHE754 Fluidization Technology Compulsory 3 0 8
13 CHE755 Principles and Technology of Drying Compulsory 3 0 8
14 CHE762 Experimental Methods for Chemical Engineers Compulsory 3 0 8
15 CHE768 Electrochemical Technologies Compulsory 3 0 8
16 CHE773 Polymer Technology Compulsory 3 0 8
17 CHE775 Polymer Analysis and Characterization Compulsory 3 0 8
18 CHE776 Industrial Crystallization Compulsory 3 0 8
19 CHE780 Advanced Chemical Engineering Thermodynamics Compulsory 3 0 8
20 CHE782 Mathematical Modeling of Energy Systems Compulsory 3 0 8
21 CHE783 Mathematical Modeling and Simulation Compulsory 3 0 8
22 CHE784 Gaseous Fuel Technology Compulsory 3 0 8
23 CHE785 Hydrogen Energy System Compulsory 3 0 8
24 CHE787 Renewable Energy Systems Compulsory 3 0 8
25 CHE789 Advanced Topics in Chemical Engineering I Compulsory 3 0 8
26 CHE790 Advanced Topics in Chemical Engineering II Compulsory 3 0 8
27 CHE793 Application of Management Science in Chemical Industry Compulsory 3 0 8

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