Conventional cars allow their users to decide about a journey's modalities largely independent. Electric vehicles (EVs) also must ensure this to be a real substitute from the user's point of view. This study focuses on range as a crucial technical feature of EVs. Many of the existing studies underestimate range requirements, as they are based on (i) one-day analyses and on (ii) mean values of daily trip distances. These data are not appropriate to answer questions on user needs; longitudinal mobility data are more suitable. This study analyses both, existing mobility data and new recorded global positioning system (GPS) data with regard to range requirements. Particularly, it was analysed whether or not identified daily driving cycles can be fulfilled with EVs assuming different charging opportunities. The analysis shows that GPS-recorded driving cycles of 80% of small-scale vehicles, 67% of midsized vehicles and 40% of sport utility vehicles can be realised with EVs.
References
-
-
1)
-
17. Sammer, G., Berger, J.W., Matiasek, F.: ‘Travel behaviour patterns in the USA and Austria in comparison – an instructive lesson for transport policy’. Proc. European Transport Conf., Homerton College, Cambridge, September 2002.
-
2)
-
23. Lane, B., Potter, S.: ‘The adoption of cleaner vehicles in the UK: exploring the consumer attitude–action gap’, J. Clean. Prod.2007, 15, (11–12), pp. 1085–1092 (doi: 10.1016/j.jclepro.2006.05.026).
-
3)
-
16. Pearre, N., Kempton, W., Guensler, R., Elango, V.: ‘Electric vehicles: how much range is required for a day's driving?’, Transp. Res. C, 2011, 19, pp. 1171–1184 (doi: 10.1016/j.trc.2010.12.010).
-
4)
-
12. Verkehrsclub Österreich: ‘Potenziale von elektromobilität’ (potetials of electric mobility) (VCÖ, 2009, 1st edn.).
-
5)
-
3. Leitinger, C., Litzlbauer, M., Schuster, A., et al: ‘Smart-electric-mobility (SEM) – speichereinsatz für regenerative elektrische mobilität und netzstabilität (final research report)’ (SEM – battery use for regeneratic electric mobiliy and network stability), (Klima-, Energiefonds, Wien, 2011, 1st edn.).
-
6)
-
32. Sammer, G., Meth, D., Gruber, C.: ‘Elektromobilität – die sicht der nutzer’, (), Elektrotech. Inf. tech., 2008, 125, (11), pp. 393–399 (doi: 10.1007/s00502-008-0581-5).
-
7)
-
14. Greene, D.: ‘Estimating daily vehicle usage distributions and the implications for limited-range vehicles’, Transp. Res. B, Methodol, 1985, 19, (4), pp. 347–358 (doi: 10.1016/0191-2615(85)90041-4).
-
8)
-
25. Statistik Austria: ‘Energiestatistik: mikrozensus energieeinsatz der haushalte 2007/2008. Fahrleistungen und treibstoffeinsatz privater Pkw’ (energy statistic: census regarding energy consumption of households 2007/2008. Driving patterns and fuel consumption of private cars), (Statistik Austria, 2008, 1st edn.).
-
9)
-
15. Khan, M., Kockelman, K.: ‘Predicting the market potential of plug-in electric vehicles using multiday GPS data’, Energy Policy, 2012, 46, (7), pp. 225–233 (doi: 10.1016/j.enpol.2012.03.055).
-
10)
-
T.F. Golob ,
J. Gould
.
Projecting use of electric vehicles from household vehicle trials.
Transp. Res. B, Methodol.
,
7 ,
441 -
454
-
11)
-
10. Steinkemper, H.: ‘Wettlauf um die zweite erfindung des automobils’, , Internationales Verkehrswesen, 2010, 63, pp. 17–19.
-
12)
-
18. Henrik Kullingsjö, L., Karlsson, S.: ‘The Swedish car movement data project’. Proc. EEVC European Electric Vehicle Congress, 2012, pp. 1–12.
-
13)
-
4. Banister, D.: ‘Cities, mobility and climate change’, J. Transp. Geography, 2011, 19, pp. 1538–1546 (doi: 10.1016/j.jtrangeo.2011.03.009).
-
14)
-
29. Heißing, B., Ersoy, M.: ‘Chassis handbook;, fundamentals, driving dynamics, components, mechatronics, perspectives’, , pp. 35–46.
-
15)
-
13. Johänning, K., Vallee, D.: ‘Nutzungspotenziale für den elektro-pkw’, (), Internationales Verkehrswesen, 2011, 63, (4), pp. 66–69.
-
16)
-
27. Statistik Austria: ‘Statistisches jahrbuch Österreichs 2011’ ( (Statistik Austria, 2012, 1st edn.).
-
17)
-
9. Nilson, M.: ‘Electric vehicles. The phenomenon of range anxiety’ (Lindholmen Science Park, Sweden. , 2011, 1st edn.).
-
18)
-
28. Statistik Austria: ‘Bevölkerungsstand 2009 – Bezirke’ ( (Statistik Austria, 2010, 1st edn.).
-
19)
-
26. Herry, M., Sammer, G.: ‘Mobilitätserhebung österreichischer haushalte. Bundesverkehrswegeplan. work packages A3-H2’ (Mobility survey of Austrian households. National mobility plan), (Wien, 1999, 1st edn.).
-
20)
-
24. Karmasin Motivforschung: ‘Prolytic – marketing engineering’ (Consulting & Software GmbH, 2010). ..
-
21)
-
21. Campbell, A.R., Ryley, T., Thring, R.: ‘Identifying the early adopters of alternative fuel vehicles: a case study of Birmingham, United Kingdom’, Transp. Res. A, 2012, 46, pp. 1318–1327.
-
22)
-
1. Cocron, P., Bühler, F., Neumann, I., et al: ‘Methods of evaluating electric vehicles from a user's perspective – the MINI E field trial in Berlin’, IET Intell. Transp. Syst., 2011, 5, (2), pp. 127–133 (doi: 10.1049/iet-its.2010.0126).
-
23)
-
5. Hensley, R., Knupfer, S., Krieger, A.: ‘The fast lane to the adoption of EVs’ (McKinsey Quarterly, 2011, 1st edn.).
-
24)
-
33. Fellendorf, M., Herry, M., Karmasin, H., et al: ‘KOMOD – konzeptstudie mobilitätsdaten Österreichs: handbuch für mobilitätserhebungen’ (KOMOD – concept study mobility data Austria: manual for mobility surveys) (2011, 1st edn.).
-
25)
-
30. Bäuml, T., Simic, D.: ‘Simulation and comparison of different energy management strategies of a series hybrid electric vehicle’. IEEE Vehicle Power and Propulsion Conf., VPPC, Harbin, China, 2008.
-
26)
-
6. Egbue, O., Long, S.: ‘Barriers to widespread adoption of electric vehicles: analysis of consumer attitudes and perceptions’, Energy Policy, 2012, 48, pp. 717–729 (doi: 10.1016/j.enpol.2012.06.009).
-
27)
-
31. Bäuml, T., Giuliani, H., Simic, D., Pirker, F.: ‘An advanced simulation tool based on physical modeling of electric drives in automotive applications’. IEEE Vehicle Power and Propulsion Conf., VPPC, Arlington, USA, 2007, pp. 736–741.
-
28)
-
8. Franke, T., Krems, J.F.: ‘Interacting with limited mobility resources: psychological range levels in electric vehicle use’, Transp. Res. A, 2013, 48, pp. 109–122.
-
29)
-
2. Hidrue, M., Parsons, G., Kempton, W., Gardner, M.: ‘Willingness to pay for electric vehicles and their attributes’, Resour. Energy Econ., 2011, 33, pp. 686–705 (doi: 10.1016/j.reseneeco.2011.02.002).
-
30)
-
19. Loechl, M.: ‘Stability of Travel Behaviour: Thurgau 2003’, , 2005, 16.
-
31)
-
11. Van Haaren, R.: ‘Assessment of EVs – range requirements and usage patterns based on driving behavior recorded in the national household travel survey of 2009’ (Earth and Environmental Engineering Department, Columbia University, 2011, 1st edn.).
-
32)
-
20. Gonder, J., Markel, T., Thornton, M., Simpson, A.: ‘Using global positioning system travel data to assess real-world energy use of plug-in hybrid electric vehicles’, Transp. Res. Rec., 2007, 2017, pp. 26–32 (doi: 10.3141/2017-04).
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