Istanbul Health and Technology University INFORMATION PACKAGE / COURSE CATALOGUE
KMY501 Advanced Chemical Reaction Engineering
Institutional Information
Degree Programs
Chemical Engineering (With Thesis)
Information For Students
Diploma SupplementErasmus Policy Statement
National Qualifications
Chemical Engineering (With Thesis)

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Master TR-NQF-HE: Level 7 QF-EHEA: Second Cycle EQF-LLL: Level 7

Course General Introduction Information

Course Code: KMY501
Course Name: Advanced Chemical Reaction Engineering
Course Semester: Fall
Course Credits:
ECTS
11
Language of instruction: TR
Course Requirement:
Does the Course Require Work Experience?: No
Type of course: Necessary
Course Level:
Master TR-NQF-HE:7. Master`s Degree QF-EHEA:Second Cycle EQF-LLL:7. Master`s Degree
Mode of Delivery: Face to face
Course Coordinator : Ar.Gör. YAĞMUR DALBUDAK
Course Lecturer(s): PROF. DR. MEHMET ALİ GÜRKAYNAK
Course Assistants:

Course Purpose and Content

Course Objectives: Evaluation of the principles of chemical reactions at the molecular level and advanced understanding of reactor design principles.
Course Content: Theoretical foundations of the reaction rate concept, collision theory and transition state theory, thermochemistry of components and reactions, estimation of reaction rate parameters and thermochemical properties using empirical and quantum chemistry methods, elemental reactions in the gas phase, elemental reactions on surfaces, diffusion and heterogeneous reactions.

Learning Outcomes

The students who have succeeded in this course;
1) To learn collision and transition state theories.
2) To estimate reaction rate parameters.
3) To understand homogeneous and heterogeneous reaction systems.
4) In-depth knowledge of chemical reaction systems and reactor design.

Course Flow Plan

Week Subject Related Preparation
1) Thermochemistry of components and reactions, empirical and model component methods Relevant sections of the references given
2) Bond and group addition methods, statistical mechanics methods Relevant sections of the references given
3) Theoretical basis of reaction rates, collision theory of gases, transition state theory Relevant sections of the references given
4) Gas phase elemental reactions, classification of reactions, single molecule reactions Relevant sections of the references given
5) Bimolecular reactions, energy transfer limited reactions Relevant sections of the references given
6) Estimation of elementary reaction rate parameters Relevant sections of the references given
7) Midterm Exam Relevant sections of the given references
8) Elementary reactions on the surface, adsorption and desorption of components Relevant sections of the given references
9) Rate expressions for surface reactions Relevant sections of the references given
10) Diffusion and heterogeneous reactions, reactions under the influence of external diffusion Relevant sections of the references given
11) Reactions under the influence of internal diffusion, catalyst deactivation Relevant sections of the references given
12) Analysis and design of chemical reactors Relevant sections of the references given
13) Isothermal and non-isothermal systems Relevant sections of the references given
14) Homogeneous and heterogeneous reactors Relevant sections of the references given
15) Presentations of students' project assignments Relevant sections of the references given
16) Final exam Relevant sections of the references given

Sources

Course Notes / Textbooks: 1. R.D. Levine and R. B. Bernstein, Molecular Reaction Dynamics and Chemical Reactivity, Oxford University Press, 1987.
2. J. I. Steinfeld, J.S. Francisco and W. L. Hase, Chemical Kinetics and Dynamics, Prentice Hall, 1989.
3. T. L. Hill, An Introduction to Statistical Thermodynamics, Dover Publications, 1986.
4. J.M. Smith, Chemical Engineering Kinetics, Mc Graw Hill, 3rd Ed, 1981.
5. H. Scott Fogler, Elements of Chemical reaction Engineering, Prentice Hall, 4th Edition, 2005.
6. M.E. Davis, R.J. Davis, Fundamentals of Chemical Reaction Engineering, Mc Graw Hill, 2003
7. Gilbert F. Froment, Kenneth B. Bischoff, Chemical Reactor Analysis and Design, John Wiley & Sons, 1990.
References: 1. R.D. Levine and R. B. Bernstein, Molecular Reaction Dynamics and Chemical Reactivity, Oxford University Press, 1987.
2. J. I. Steinfeld, J.S. Francisco and W. L. Hase, Chemical Kinetics and Dynamics, Prentice Hall, 1989.
3. T. L. Hill, An Introduction to Statistical Thermodynamics, Dover Publications, 1986.
4. J.M. Smith, Chemical Engineering Kinetics, Mc Graw Hill, 3rd Ed, 1981.
5. H. Scott Fogler, Elements of Chemical reaction Engineering, Prentice Hall, 4th Edition, 2005.
6. M.E. Davis, R.J. Davis, Fundamentals of Chemical Reaction Engineering, Mc Graw Hill, 2003
7. Gilbert F. Froment, Kenneth B. Bischoff, Chemical Reactor Analysis and Design, John Wiley & Sons, 1990.

Course - Learning Outcome Relationship

No Effect 1 Lowest 2 Medium 3 Highest
       
Program Outcomes Level of Contribution
1) . 2
2) . 2
3) . 2
4) . 2
5) . 2
6) . 2
7) . 2
8) . 2

Learning Activity and Teaching Methods

Anlatım
Bireysel çalışma ve ödevi
Course
Homework
Problem Çözme
Proje Hazırlama

Measurement and Evaluation Methods and Criteria

Yazılı Sınav (Açık uçlu sorular, çoktan seçmeli, doğru yanlış, eşleştirme, boşluk doldurma, sıralama)
Homework
Bireysel Proje
Sunum

Assessment & Grading

Semester Requirements Number of Activities Level of Contribution
Homework Assignments 6 % 15
Project 1 % 20
Midterms 1 % 25
Final 1 % 40
total % 100
PERCENTAGE OF SEMESTER WORK % 60
PERCENTAGE OF FINAL WORK % 40
total % 100

İş Yükü ve AKTS Kredisi Hesaplaması

Activities Number of Activities Aktiviteye Hazırlık Aktivitede Harçanan Süre Aktivite Gereksinimi İçin Süre Workload
Course Hours 14 3 42
Presentations / Seminar 1 24 24
Project 1 24 24
Homework Assignments 6 24 144
Midterms 1 48 48
Final 1 48 48
Total Workload 330