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Third-Cycle Courses

Faculty of Engineering | Lund University

Details for the Course Syllabus for Course MVK045F valid from Spring 2020

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General
Aim
  • The objectives of this course are to give a fundamental understanding of turbulent combustion process found in typical combustion devices; to give basic knowledge about the structures of the reaction zones in turbulent flames and how turbulence and the reaction zones affect each other; and to develop skills to analyze and model turbulent combustion processes in engineering combustion devices.
Contents
  • The course starts by going through fundamental knowledge of thermo-chemistry, chemical kinetics, transport processes and fundamental equations for turbulent reacting flows. Then, laminar premixed and non-premixed flames will be studied, followed by turbulent flame theories and modeling of turbulent combustion. Existing models for turbulent combustion process will be discussed, based on systematical understanding on how turbulence and chemical reaction interact. The last part of the course deals with application of turbulent combustion theory and modeling to typical engineering combustion devices, e.g., gas turbines, piston engines and furnaces.
Knowledge and Understanding
  • For a passing grade the doctoral student must
  • be able to describe the basic transport processes involved in combustion processes, i.e., transport of mass, momentum and energy
    be able to describe basic chemical reactions involved in combustion, i.e., chain initiating, branching and terminating reactions and the effect of temperature and pressure on these reactions
    be able to analyze basic flame structures in premixed flames, diffusion flames, and partially premixed flames, and explain different mechanisms of turbulence eddy and flame interaction
    be able to describe different modeling approaches for turbulent combustion, and propose and apply relevant models for typical engineering turbulent combustion processes
Competences and Skills
  • For a passing grade the doctoral student must
  • be able to use the knowledge of elementary reactions to determine, for typical premixed flames, the flame propagation properties, i.e., lean and rich flammability limits, burning velocity, quenching distances
    be able to use flamelet theory to determine, for typical jet diffusion flames, the flame quenching conditions, and to explain the process of flame stabilization by the burner rim, the bluff body and the inflow swirl
    be able to use relevant models to determine the composition and temperature of gaseous mixture in the reaction zones and post-flame zone of premixed turbulent flames
    be able to determine the regimes of turbulent premixed and diffusion flames based on turbulent eddy scales and flame scales
    be able to in groups, under the supervision of teachers, use the theory and models discussed in the course to predict and analyze typical turbulent combustion processes found in gas turbines, piston engines and furnaces
Judgement and Approach
  • For a passing grade the doctoral student must
  • be able to actively participate the discussions about turbulent combustion processes
    be able to in both written and oral form, present analysis of turbulent combustion processes in typical engineering devices
Types of Instruction
  • Lectures
  • Seminars
  • Exercises
  • Project
Examination Formats
  • Written exam
  • Written report
  • Written assignments
  • To pass the course the student has to pass a written examination. In addition to this, obligatory home works and project works must be carried out satisfactorily. The obligatory home works shall be presented in written form. Project work shall be presented both orally and in a written report form. The course ends with a written exam. In order to pass this course, all compulsory assignments, i.e., home works, laboratory exercises, and a written exam must be approved. Grades are based on the written exam.

    The examiner, in consultation with Disability Support Services, may deviate from the regular form of examination in order to provide a permanently disabled student with a form of examination equivalent to that of a student without a disability.
  • Failed, pass
Admission Requirements
Assumed Prior Knowledge
  • MMVF01 Thermodynamics and Fluid Mechanics, MVK140/MVKN90 Turbulence - Theory and Modelling.
Selection Criteria
Literature
  • Turns, S. R.: An Introduction to Combustion: Concepts and Applications, 3rd Edition. McGraw-Hill, 2011. ISBN 9780071086875.
Further Information
  • The course will be based on lectures, exercise, projects and home works
Course code
  • MVK045F
Administrative Information
  • 2019-12-09
  • Anders Gustafsson / FUN(2)

All Published Course Occasions for the Course Syllabus

3 course occasions.

Course code ▼ Course Name ▽ Division ▽ Established ▽ Course syllabus valid from ▽ Start Date ▽ End Date ▽ Published ▽
MVK045F Turbulent Combustion Energy Sciences 2019‑12‑12 Spring 2020 2020‑01‑20 2020‑06‑30 2019‑12‑12
MVK045F Turbulent Combustion Energy Sciences 2022‑01‑19 Spring 2020 2022‑01‑20 2022‑03‑19 2022‑01‑19
MVK045F Turbulent Combustion Energy Sciences 2023‑12‑07 Spring 2020 2024‑01‑15 2024‑03‑06 2023‑12‑07

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