Course syllabus
Course-PM
TME095 Electric and Hybrid Vehicles lp2 HT21 (7.5 hp)
Course is offered by the department of Mechanics and Maritime Sciences:
MPAUT FORDONSTEKNIK, MASTERPROGRAM, Årskurs 1 (obligatoriskt valbar) (Links to an external site.)
MPEPO ELKRAFTTEKNIK, MASTERPROGRAM, Årskurs 1 (valbar) (Links to an external site.)
MPSYS SYSTEMTEKNIK, REGLERTEKNIK OCH MEKATRONIK, MASTERPROGRAM, Årskurs 1 (valbar) (Links to an external site.)
Contact details
Christian Bosser -- bosserc@chalmers.se
Prashant Lokur (teacher) --- prashant.lokur@cevt.se
Anders Grauers (lecturer) --- anders.grauers@chalmers.se
Torbjörn Thiringer (lecturer) --- torbjorn.thiringer@chalmers.se
David Sedarsky (examiner) --- sedarsky@chalmers.se
Course purpose
TME095 covers hybrid and electric vehicle fundamentals and leverages simulation tools (Matlab+Simulink) to understand design choices and tradeoffs that affect the performance and efficiency of electric and hybrid-electric vehicle powertrains. Through the projects, lectures, and work required to pass this course you should learn:
― To identify the pros and cons of different types of hybrid powertrains
― The strengths and trade-offs of electric and conventional powertrains
― Approaches for optimal sizing of the electric machine, battery and combustion engine components
― Basic control approaches for a hybrid powertrain
― To simulate a hybrid powertrain and its controller to inform vehicle design choices
― To analyze the cost-effectiveness of different types of hybrid powertrains
Schedule
Course literature
Guzzella & Sciaretta, Vehicle Propulsion Systems, Springer
https://link.springer.com/book/10.1007/978-3-642-35913-2
QSS Toolbox manual
Assignments and Lecture Notes (posted on course homepage)
Course design
The course is structured around Matlab and Simulink exercises (assignments 1 & 2) and lectures covering essential topics for making design decisions for hybrid and electric vehicle powertrains, primarily from the standpoint of efficiency and fuel consumption.
Assignment 1 is graded pass/fail, and passing the first assignment is required to begin the second assignment.
Assignment 2 is done in a group, where you will develop several related powertrain models (conventional, hybrid series, & hybrid parallel). Each group will produce a technical report describing the models and analysis comparing the model performance of each design. Passing assignment 2 requires demonstration of a working series model and a working parallel model for your assigned vehicle class.
Learning objectives and syllabus
Learning objectives:
- describe the components of an arbitrary powertrain (combustion engine - gearbox,-electric motor - battery, or combinations of these (hybrid electric)
- derive a model of a battery suitable for a vehicle
- explain the advantages and disadvantages of a given powertrain
- derive a control strategy for a specified powertrain and driving scenario
- explain the influence of powertrain design and its control on powertrain efficiency
The course syllabus is available at Studieportalen: Study Plan
Examination form
All assignments are compulsory.
Assignment 1 is pass/fail; you must pass assignment 1 in order to start assignment 2.
The technical report for assignment 2 is graded (5/4/3/U), and counts 40% towards your final grade in the course
The course concludes with a comprehensive final exam, graded (5/4/3/U).
The course grade is based on the grades for Assignment 2 (40%) and the Final Exam (60%).
Course summary:
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