Kursu reģistrs

Statuss(Aktīvs)

Kurstitel
Kurs-Code	TraZM005
Kreditpunkte (ECTS)	3
Stundenzahl insgesamt (im Auditorium)	81
Vorlesungen (Stundenzahl)	12
Stundenzahl fŅr Seminare und praktische Arbeitsaufträge	6
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
6979@@Priekšzināšanas Kursam priekšzināšanas nav nepieciešamas

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.