Course Information

Course Name	Turkish	Yanma
	English	Combustion
Course Code	UCK 427E	Credit	Lecture (hour/week)	Recitation (hour/week)	Laboratory (hour/week)
Semester	-	-	3	-	-
Course Language		English
Course Coordinator		Mete Budaklı Mete Budaklı
Course Objectives		1. To introduce the theoretical approaches required to understand, prescind and interpret combustion. 2. To teach methods to evaluate energetic and exergetic efficiency of various types of reacting fluids. 3. To give ability to apply thermodynamic approaches on problems related to real combustion problems and train the students to adapt theoretical methods in order to design combustion chambers, flames and overall system unit.
Course Description		The course presents foundational combustion concepts through straightforward and accessible analyses. Additionally, it introduces numerous practical applications that illustrate and connect to various theoretical principles. Ultimately, undergraduates will gain knowledge in the field of various combustion aspects and get an introducion on applicable methodologies in related fields.
Course Outcomes		Students, who pass the course will be able to 1. Classify specific combustion features. 2. To analyze mixing process of ideal gases made of two and more component fluids, to determine their state properties, to learn the relation between molar and mass units. 3. Set an abstracted model and apply the related thermodynamic and chemical equations of certain combustion types and interpret the solutions. 4. Understand the change of state for fluids, determine the necessary type of energy to be considered for the same 5. Analyze the thermal properties, energy output and mass species as well as momentum conservation. 6. Understand and determine the chemical kinetics of reacting flows as well as phase change and reaction in small-scales. 7. Evaluate the physical type and analyze the thermodynamic performance of flames at different operating conditions through basic correlations and governing equations. 8. Understand and apply simple models of phase change and burning. 9. To get into turbulent flows, analyze structural characteristics and differentiate flame regimes as well as get accustomed to non-ideal conditioned flames.
Pre-requisite(s)		UCK 205 MIN DD or UCK 205E MIN DD or UCK 212 MIN DD or UCK 212E MIN DD or UCK 207 MIN DD or UCK 207E MIN DD
Required Facilities		---
Other		---
Textbook		An introduction to Combustion: Concepts and Applications, Stephen R. Turns, 3rd edition, McGraw Hill, 2011. Principles of Combustion, 2nd ed. K. K-Y. Kuo, Wiley, 2005. Combustion Physics, C.K. Law, Cambridge University Press, 2010. Gas Turbine Combustion, A.H. Lefebvre, CRC, 1998.
Other References		Y. A. Çengel, M. A. Boles, M. Kanoğlu Thermodynamics, An Engineering Approach A. Schmidt Technical Thermodynamics for Engineers D. E. Winterbone, A. Turan Advanced Thermodynamics for Engineers VDI-Gesellschaft Verfahrenstechnik und Chemieingenieurwesen VDI Heat Atlas

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