Abet Syllabus I C Engines 462d6a
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The University of Jordan Faculty of Engineering & Technology Mechanical Engineering Department Internal Combustion Engines (0934545) Seconed Semester 2013/2014 2005 Course Catalog Fundamentals of engines and their types. Review of air-standard, fuel-Air and actual cycles. Fuel and combustion. Fuel feeding systems. Engine testing and performance characteristics. Air pollution. Forced induction systems. The course also includes an experimental part which allows the student to estimate the performance of both spark ignition and compression ignition engines, effect of some parameters on engine performance like ignition timing, Air/Fuel ratio, compression ratio and perform an energy balance of the compression ignition engine.
Text Books
Title Author(s) Publisher Year Edition
Text book 1
Text book 2
Engineering Fundamentals of the Internal Combustion Engine Willard Pulkrabek Pearson PrenticeHall 2004 Second Edition
Internal Combustion Engines, by V. Ganesan Tata McGraw-Hill 2012 Fourth Edition
References 1) Internal Combustion Engines Fundamentals, by J. B. Heywood 2) Fundamentals of Internal Combustion Engines, by F. C. Obert 3) Introduction to internal combustion engines , by Richard Stone 4) A course in internal combustion engines, by M. L. Mathur International Journal of Automotive Technology, http://www.springer.com/engineering/mechanical+engineering/journal/12239 http://ocw.mit.edu/courses/mechanical-engineering/2-61-internal-combustion-engines-spring2008/lecture-notes/
Books
Journals Internet links
Instructor Dr. Jehad Yamin, E-mail:[email protected]
Instructor
Prerequisites Prerequisites by topic Prerequisites by course Co-requisites by course Prerequisite for
1. Flow through orifices 2. Bernoulli equation Thermodynamics (II) (0904342) -
Measurable Program Outcomes (MPO) and Course Outcomes MPO Course Outcomes MPO# 1.7-1 and 3 a) Analyse the theoretical and actual gas power cycles used in IC Engines. b) Study the engine cooling system.
1. 2. 3. 4. 5.
Find performance controlling parameters for the cycles Perform energy balance for the engine Design and calculate for the radiator flow rate, area ..etc. Analyse the combustion process Calculate the engine performance parameters
1
MPO# 1.9-2 Performance simulation of the theroretical and actual IC Engine cycles. MPO# 1.10 a) Design of fuel supply systems. b) Testing and measurements of engine performance and emission parameters.
Week 1-2 3 4 5 6-7 8 9-11 12 13-14 15 16 16
1.
Perform simulation of theoretical and actual cycles using standard software.
6. 7. 8. 9.
Formulate and design the carburetor main fuel supply nozzles. Analyse its performance under different atmospheric conditions Formulate and design the fuel injection system. Identify the controlling parameters for their performance
Topics Covered Topics Basics of Internal Combustion Engines Ideal analysis of thermodynamc cycles Fuel-Air thermodynamic cycle analysis Actual analysis of thermodynamic cycles Engine testing and performance Fuels Fuel feeding systems. Ignition systems. Combustion in SI and CI engines Pollution formation and control Cooling and lubrication systems (If time permits) Forced induction systems (If time permits)
Chepters in Text Chapters 1&2 of both books Chapter 3&4 of book No. 2 Chapter 5 of book No 2 Chapter 6 of book No 2 Chapter 15 & 16 of book No 2 Chapter 6 Chapter 8 & 9 Chapter 11 Chapter 12 Chapter 15 Chapter 13-14 Chapter 19
Evaluation Assessment Tool Quizzes Midterm Exam Final Exam Project
Expected Due Date After chapters 2, 5, 8, 9, 15 According to the department schedule According to the University final examination schedule Two weeks before the first day of the final exam.
Weight 10% 30 % 50 % 10 %
Contribution of Course to Meeting the Professional Component The course contributes to building the fundamental basic concepts of motion analysis and synthesis of basic linkages and machine components.
Relationship to Program Outcomes (%) PO # %
1 35
2
3 10
4
5 40
6
7 5
8
9 10
10
Relationship to Mechanical Engineering Program Objectives PEO1
Prepared by: Last Modified:
PEO3 PEO5 PEO7 PEO9
Dr. Jehad Yamin February 16, 2014
2
Text Books
Title Author(s) Publisher Year Edition
Text book 1
Text book 2
Engineering Fundamentals of the Internal Combustion Engine Willard Pulkrabek Pearson PrenticeHall 2004 Second Edition
Internal Combustion Engines, by V. Ganesan Tata McGraw-Hill 2012 Fourth Edition
References 1) Internal Combustion Engines Fundamentals, by J. B. Heywood 2) Fundamentals of Internal Combustion Engines, by F. C. Obert 3) Introduction to internal combustion engines , by Richard Stone 4) A course in internal combustion engines, by M. L. Mathur International Journal of Automotive Technology, http://www.springer.com/engineering/mechanical+engineering/journal/12239 http://ocw.mit.edu/courses/mechanical-engineering/2-61-internal-combustion-engines-spring2008/lecture-notes/
Books
Journals Internet links
Instructor Dr. Jehad Yamin, E-mail:[email protected]
Instructor
Prerequisites Prerequisites by topic Prerequisites by course Co-requisites by course Prerequisite for
1. Flow through orifices 2. Bernoulli equation Thermodynamics (II) (0904342) -
Measurable Program Outcomes (MPO) and Course Outcomes MPO Course Outcomes MPO# 1.7-1 and 3 a) Analyse the theoretical and actual gas power cycles used in IC Engines. b) Study the engine cooling system.
1. 2. 3. 4. 5.
Find performance controlling parameters for the cycles Perform energy balance for the engine Design and calculate for the radiator flow rate, area ..etc. Analyse the combustion process Calculate the engine performance parameters
1
MPO# 1.9-2 Performance simulation of the theroretical and actual IC Engine cycles. MPO# 1.10 a) Design of fuel supply systems. b) Testing and measurements of engine performance and emission parameters.
Week 1-2 3 4 5 6-7 8 9-11 12 13-14 15 16 16
1.
Perform simulation of theoretical and actual cycles using standard software.
6. 7. 8. 9.
Formulate and design the carburetor main fuel supply nozzles. Analyse its performance under different atmospheric conditions Formulate and design the fuel injection system. Identify the controlling parameters for their performance
Topics Covered Topics Basics of Internal Combustion Engines Ideal analysis of thermodynamc cycles Fuel-Air thermodynamic cycle analysis Actual analysis of thermodynamic cycles Engine testing and performance Fuels Fuel feeding systems. Ignition systems. Combustion in SI and CI engines Pollution formation and control Cooling and lubrication systems (If time permits) Forced induction systems (If time permits)
Chepters in Text Chapters 1&2 of both books Chapter 3&4 of book No. 2 Chapter 5 of book No 2 Chapter 6 of book No 2 Chapter 15 & 16 of book No 2 Chapter 6 Chapter 8 & 9 Chapter 11 Chapter 12 Chapter 15 Chapter 13-14 Chapter 19
Evaluation Assessment Tool Quizzes Midterm Exam Final Exam Project
Expected Due Date After chapters 2, 5, 8, 9, 15 According to the department schedule According to the University final examination schedule Two weeks before the first day of the final exam.
Weight 10% 30 % 50 % 10 %
Contribution of Course to Meeting the Professional Component The course contributes to building the fundamental basic concepts of motion analysis and synthesis of basic linkages and machine components.
Relationship to Program Outcomes (%) PO # %
1 35
2
3 10
4
5 40
6
7 5
8
9 10
10
Relationship to Mechanical Engineering Program Objectives PEO1
Prepared by: Last Modified:
PEO3 PEO5 PEO7 PEO9
Dr. Jehad Yamin February 16, 2014
2
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