Kurs-Code TraZM005
Kreditpunkte 3
Stundenzahl insgesamt (im Auditorium)
Vorlesungen (Stundenzahl)12
Stundenzahl fŅr Seminare und praktische Arbeitsaufträge6
Arbeit im Labor (Stundenzahl)6
Selbststandige Arbeit des Studenten (Stunden)57
Bestätigt am (Datum)13.12.2023
Kurs ausgearbeitet von (Lehrkraft)
Dainis Berjoza
Vilnis Pīrs
Zur einfŅhrenden LektŅre empfohlen
1. Berjoza D. Automobiļu teorija. Mācību grāmata. Jelgava: LLU, 2008. 200 lpp.
2. Wong J.Y. Theory of ground vehicles. John Wiley & Sons Inc., 2022. 560 p. ISBN:9781119719700
3. Elektroenerģijas izmantošana spēkratos Latvijā. Zinātniskā monogrāfija. Jelgava: Latvijas Lauksaimniecības universitāte, 2013. 426 lpp.. ISBN 978-9984-849-33-1 .
4. Research of the Exploitational and Infrastructural Parameters of Electric Vehicles. Monograph. Jelgava: Latvia University of Agriculture, 2013. 163 p. ISBN 978-9984-849-34-8
5. Leithman S., Brant B. Build Your Own Electric Vehicle. 2nd Edition. MC Graw Hill, 2009. 358 p.
6. Ehsani M., Gao Y., Emadi A. Modern Electric , Hybrid and Fuel Cell Vehicles. Fundamentals, Theory, and Design. London: Taylor & Francis Group, London, 2010. 558 p. Nav LLU FB.
7. Emadi A. Advanced Electric Drive Vehicles. Taylor & Francis Group, 2015. 616. P. ISBN 978-1-4665-9770-9
8. Husain I. Electric and Hybrid Vehicles. Design Fundamentals. Taylor & Francis, 2005. 293 p. ISBN 0-8493-1466-6.
9. Denton T. Electric and Hybrid Vehicles, Taylor & Francis, 2016. 208 p. ISBN: 978-1-138-84237-3.
10. Crisostomi E. et all. Electric and Plug-in Hybrid Vehicle Networks: Optimization and Control. Taylor & Francis, 2018. 261 p. ISBN: 978-1-4987-4499-7.
11. Serra J. V. F. Electric Vehicles Technology, Policy and Commercial Development. Taylor & Francis, 2012. 215. p. ISBN: 9781849714150.
12. Mehrdad Ehsani M. (et all) Modern Electric, Hybrid Electric, and Fuel Cell Vehicles. Fundamentals, Theory, and Design. Taylor & Francis, 2005. 401 p. ISBN: 0-8493-3154-4.
13. Ehsani M. et all. Modern Electric, Hybrid Electric, and Fuel Cell Vehicles. Taylor & Francis, 2018. 573 p. 978-1-4987-6177-2.
Weiterfuhrende Literatur
1. Tabellenbuch Elektrotechnik. Electrical engineering :tables, standards, formulas. Häberle, Gregor ... [et al.]. Haan-Gruiten: Verl. Europa-Lehrmittel, 2008. 456 p.
2. Bonnick A. Automotive Science and Mathematics. Taylor & Francis, 2011. 265 p. ISBN 978-0-7506-8522-1.
3. Renner G., Wimmer A. Kalkulation fur Kraftfahrzeugmeister. Deuchland: Europa- Lehrmittel, 2005. 176 p.
4. Anderson C.D., Anderson J. Electric and Hybrid Cars A History. North Carolina, and London: Mc Farland & Company, Inc., Publishers. Jefferson, 2010. 269 p.
5. Hodkinson R., Fenton J. Lightweight electric/ Hybrid Vehicle Design. Butterworth-Heinemann. Oxford, 2001. 280 p.
6. Larminie J. Electric Vehicle Technology Explained. John Wiley & Sons, Ltd. Oxford, 2003. 303 p.
7. Link A. N. O’Connor A.C. Scott T. J. Battery Technology for Electric Vehicles. Taylor & Francis, 2015. 147 p. ISBN: 978–1–138–81110–2.
8. Spiryagin M. et all. The Dynamics of Vehicles on Roads and Tracks. Taylor & Francis, 2018. 877 p. ISBN 978-1-138-03571-3.
9. Andreev A. F. et. al. Driveline Systems of Ground Vehicles Theory and Design. Taylor & Francis, 2010. 767 p. ISBN 978-1-4398-1727-8.
10. Rosenber M. et al. The Dynamics of Vehicles on Roads and Tracks. Taylor & Francis, 2016. 1626 p. 978-1-138-02885-2.
11. Karnopp D. Vehicle Stability. Taylor & Francis, 2004. 331 p. 0-8247-5711-4.
12. Lee A. T. Vehicle Simulation. Taylor & Francis, 2018. 171 p. ISBN 978-1-1380-9452-9.
13. Mastinu G. Road and off-Road Vehicle SyStem dynamicS Handbook. Taylor & Francis, 2014. 1678 p. ISBN 978-1-4200-0490-8.