UDE Module Database - Verbrennungsmotoren

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Course Type (SWS)

Lecture: 2 │ Exercise: 1 │ Lab: 0 │ Seminar: 0

Exam Number:	ZKB 40082
Type of Lecture:	Lecture based on powerpoint presentations and excercises that are solved individually. Solutions are presented in a seminar. Script published online, Excercises and solutions available online.
Language:	German
Cycle:	SS
ECTS:	4

    Exam Type
        Written Exam (90 min.)  

assigned Study Courses

M.Sc. Automotive Engineering & Management (Electrical Engineering), PO11 - M-AEM(ET)-11 (Elective Subject)
M.Sc. Automotive Engineering & Management (Mechanical Engineering), PO11 - M-AEM(MB)-11 (Elective Subject)
M.Sc. Automotive Engineering & Management (Electrical Engineering), PO19 - M-AEM(ET)-19 (Elective Subject)
M.Sc. Automotive Engineering & Management (Mechanical Engineering), PO19 - M-AEM(MB)-19 (Elective Subject)
M.Sc. Industrial Engineering (Mechanical Engineering and Management), PO09 - M-WI(MB)-09 (Elective Subject)
M.Sc. Industrial Engineering (Mechanical Engineering and Management), PO19 - M-WI(MB)-19 (Elective Subject)
M.Sc. Mechanical Engineering (Energy and Process Engineering), PO13 - M-MB(EVT)-13 (Mandatory Subject)
M.Sc. Mechanical Engineering (General Mechanical Engineering), PO13 - M-MB(AMB)-13 (Elective Subject)
M.Sc. Mechanical Engineering (Ship and Offshore Technology), PO13 - M-MB(SOT)-13 (Elective Subject)
M.Sc. Mechanical Engineering (Energy and Environmental Engineering), PO15 - M-ME(EEE)-15 (Elective Subject)
M.Sc. Mechanical Engineering (General Mechanical Engineering), PO15 - M-ME(GME)-15 (Elective Subject)
M.Sc. Mechanical Engineering (Mechatronics), PO15 - M-ME(ME)-15 (Elective Subject)
M.Sc. Mechanical Engineering (Production and Logistics), PO15 - M-ME(PL)-15 (Elective Subject)
M.Sc. Mechanical Engineering (Ship and Offshore Technology), PO15 - M-ME(SOT)-15 (Elective Subject)
M.Sc. Mechanical Engineering (Energy and Environmental Engineering), PO19 - M-ME(EEE)-19 (Elective Subject)
M.Sc. Mechanical Engineering (Energy and Process Engineering), PO19 - M-MB(EVT)-19 (Mandatory Subject)
M.Sc. Mechanical Engineering (General Mechanical Engineering), PO19 - M-ME(GME)-19 (Elective Subject)
M.Sc. Mechanical Engineering (General Mechanical Engineering), PO19 - M-MB(AMB)-19 (Elective Subject)
M.Sc. Mechanical Engineering (Maritime Systems Safety), PO19 - M-ME(MSS)-19 (Elective Subject)
M.Sc. Mechanical Engineering (Mechatronics), PO19 - M-ME(ME)-19 (Elective Subject)
M.Sc. Mechanical Engineering (Production and Logistics), PO19 - M-ME(PL)-19 (Elective Subject)
M.Sc. Mechanical Engineering (Ship and Offshore Technology), PO19 - M-ME(SOT)-19 (Elective Subject)
M.Sc. Mechanical Engineering (Ship and Offshore Technology), PO19 - M-MB(SOT)-19 (Elective Subject)
M.Sc. Mechanical Engineering (Turbomachinery), PO19 - M-ME(TM)-19 (Elective Subject)

assigned People

Prof. Sebastian Kaiser

assigned Modules

Information

Deutsch
English

Beschreibung:	Die Veranstaltung führt in die Grundlagen des Verbrennungsmotors ein. Sie hat ihren Schwerpunkt in der Vermittlung der innermotorischen Prozesse von Gemischbildung und Verbrennung von Diesel und Ottomotoren. 1. Einleitung 2. Kraftstoffe und Leistungskenngrößen von Verbrennungsmotoren 3. Arbeitsprozesse im Verbrennungsmotor 4. Ladungswechsel 5. Aufladung 6. Gemischbildung, Zündung und Verbrennung im Ottomotor 7. Gemischbildung und Verbrennung im Dieselmotor 9. Homogen kompressionsgezündete Verbrennung (HCCI) 10. Umweltprobleme bei der motorischen Verbrennung
Lernziele:	Die Studierenden verstehen die Konzepte des Verbrennungsmotors und können die Grundlagen des innermotorischen Verbrennungsprozesses und die Grundlagen der technischen Realisierung erklären. Sie sind in der Lage, einfache Rechnungen zur überschlägigen Auslegung von Motoren durchzuführen. Sie verstehen die Entwicklungsziele und deren Bedeutung.
Literatur:	Merker/Kessen Technische Verbrennung, Verbrennungsmotoren Teubner, Stuttgart. ISBN 3-519-06379-4 Merker/Stiesch Technische Verbrennung: Motorische Verbrennung Teubner, Stutttgart. ISBN 3-519-06381-6 Heywood Internal Combustion Engines McGraw-Hill, New York 1988
Vorleistung:	Thermodynamik
Infolink:
Bemerkung:

Description:	This lecture introduces the fundamentals of reciprocating internal combustion engines. It focuses on the description of in-cylinder processes in Diesel and spark ignition engines. 1. Introduction 2. Fuels and characteristic numbers of internal combustion engines 3. Engine thermodynamic cycles 4. Gas exchange 5. Boosting 6. Mixture formation, ignition, and combustion in SI engines 7. Mixture formation and combustion in Diesel engines 8. Homogeneous charge compression ignition (HCCI) 9. Environemtal issues related to IC engines
Learning Targets:	Students understand the concepts of internal combustion engines. They are able to explain the fundamentals of in-cylinder combustion processes and the fundamentals of the practical implementation. The students are able to perform basic calculations needed in first-order design analysis of engines. They understand the targets of the development of IC engines and their relevance.
Literature:	Merker/Kessen Technische Verbrennung, Verbrennungsmotoren Teubner, Stuttgart. ISBN 3-519-06379-4 Merker/Stiesch Technische Verbrennung: Motorische Verbrennung Teubner, Stutttgart. ISBN 3-519-06381-6 Heywood Internal Combustion Engines McGraw-Hill, New York 1988
Pre-Qualifications:	Thermodynamics
Info Link:
Notice:

Module Database
Faculty of Engineering

Verbrennungsmotoren
Internal Combustion Engines