Course: Semester: Day(s): Time: Location: Instructor: Phone: Email: ENPM 656 – Energy Conversion II: Mobility Applications Spring 2015 M 7:00 PM – 9:40 PM and online JMP 2222, DETS, College Park, MD Patrick Caton, Ph.D., P.E. (408) 679-0352 (cell) [email protected] Course Description Course Overview This course is designed to give students an understanding of the principles and design concepts associated with important fuel – engine aspects of modern and advanced mobility power systems. Emphasis is given to state of the art and emerging IC engine and fuel cell technologies such as those applied to modern and advanced automotive (i.e. self-propelled) vehicles. Prerequisites Undergraduate course in thermodynamics, heat transfer, and fluid mechanics; or ENPM 672 (Fundamentals of Thermal Systems). Course Requirements Six homework assignments will enable students to practice quantitative and qualitative analysis related to engines. Four virtual labs will allow students to explore relationships among real engine operational data and synthesize results. Learning will also be assessed through two mid-course exams, each of which will have an open-book analysis portion and a timed, closed-book portion. Required Technology Students will find the using software tools such as Excel, EES, and/or MATLAB helpful, though not required. We will utilize Java-based online applications (free and openly available on the internet) based at Colorado State University (http://www.engr.colostate.edu/~allan/engines.html). These applications were developed by one of the authors of the optional text for the course, and will facilitate interesting engine calculations. Instructor Patrick Caton, Ph.D., P.E. UMD OAEE Lecturer, Mechanical Engineering USNA Assoc. Prof. Mechanical Engineering Meeting Times January 26, 2015 – May 11, 2015 Lectures: M 1900-2140 hrs, JMP 2222 (DETS), College Park, MD (plus online). Required Text Caton, P., Cowart, J., and Hamilton, L. Piston Power, 2011. This is an unpublished set of course notes arranged in book format which pulls from many popular textbooks. It is provided freely to enrolled students. Optional Texts Ferguson, C. R. and Kirkpatrick, A. T. Internal Combustion Engines: Applied nd Thermosciences, 2 Ed, 2001, Wiley. ISBN 0-471-35617-4. Grading Homework Assignments-10%, Virtual Labs-40%, Exams-50% (25% each). Required/Recommended Textbooks Required Text Caton, P., Cowart, J., and Hamilton, L. Piston Power, 2011. This is an unpublished set of course notes arranged in book format which pulls from many popular textbooks. It is provided freely to enrolled students. Optional Texts Ferguson, C. R. and Kirkpatrick, A. T. Internal Combustion Engines: Applied nd Thermosciences, 2 Ed, 2001, Wiley. ISBN 0-471-35617-4. Course Outline 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. Overview of Engines Engine Type and Function Engine Thermodynamics and Metrics Flames and Fuels in Engines HCSI-Gasoline Engines Emissions SCCI-Diesel Engines Engine Breathing Friction and Losses Modern Controls Advanced Concepts ENPM656: Energy Conversion II-Mobility Applications Spring 2015 Week 1 1/26 2 2/2 3 2/9 4 2/16 5 2/23 6 3/2 7 3/9 8 3/23 9 3/30 10 4/6 11 4/13 12 4/20 13 4/27 14 5/4 15 5/11 Topic I. Overivew II. Type and Function Reading PP1, PP2 F1 III. Engine Thermo and Metrics (models and cycles) III. Engine Thermo and Metrics (MEPs, SFCs, metrics) IV. Flames and Fuels (mixtures and stoichiometry) IV. Flames and Fuels (chemistry, knock, advanced fuels) V. HCSI Engines PP4 F-1.3, 2 PP3, PP5 F3,4 Assignment or Lab HW1: Engine Inspection HW2: Engine Cycle Models HW3: Engine Metrics Metrics Lab PP6 HW4: Combustion Stoich F-9.1-9.3, 9.5, 11 and AFT Exam 1 VI. Emissions VII. SCCI Engines VIII. Engine Breathing PP10 F-9.6-9.12 PP7 F-9.4-9.5, 11 PP11 F7 HCSI Timing and AFR Lab Emissions Lab Diesel Lab IX. Friction and Losses F6,8 HW5: Engine Breathing X. Modern Controls PP12, PP13 F5 HW6: Friction and Losses XI. Advanced Engine Concepts SAE Paper Course Review SAE Paper SAE Paper Brief Report Exam 2 PP = Piston Power (course notes) F = Ferguson and Kirkpatrick (optional text)