Objective: The objective of this course is to provide students with methods and practice of mathematical modeling in combustion.

Outcome: To encourage, teach and enable students to model combustion phenomena and use the obtained knowledge in research and practice.

The aim of this course is to teach students how to physically and mathematically model and use the knowledge in specific areas of combustion. The lectures cover basic elements of combustion, physical and mathematical modeling of mass, momentum, energy, chemical kinetics, use of reference coordinate systems, turbulence, averaging of differential equations, under steady and unsteady conditions, and combustion of solid, liquid and gaseous fuels.

n/a

No preconditions for attendance

Total assigned hours: 65

New material: 35
Elaboration and examples (recapitulation): 15

Auditory exercises: 0
Laboratory exercises: 0
Calculation tasks: 0
Seminar paper: 0
Project: 0
Consultations: 0
Discussion/workshop: 0
Research study work: 0

Review and grading of calculation tasks: 5
Review and grading of lab reports: 0
Review and grading of seminar papers: 0
Review and grading of the project: 0
Test: 0
Test: 5
Final exam: 5

Activity during lectures: 10
Test/test: 0
Laboratory practice: 10
Calculation tasks: 0
Seminar paper: 50
Project: 0
Final exam: 30
Requirement for taking the exam (required number of points): 0

M. Adžić Handouts Combustion, D. Drasković, M. Radovanović and M. Adžić, Faculty of Mechanical Engineering Berlgrade; J. Warnatz U. Maas, R.W. Dibble, Combustion, Springer, 2000.; K. K. Kuo, Principles of Combustion, John Wiley, New York, 1986.