I territori dell’auto elettrica: oltre il paradigma urbanocentrico

Titolo Rivista ARCHIVIO DI STUDI URBANI E REGIONALI
Autori/Curatori Paola Pucci
Anno di pubblicazione 2020 Fascicolo 2020/128 Lingua Italiano
Numero pagine 24 P. 14-37 Dimensione file 311 KB
DOI 10.3280/ASUR2020-128003
Il DOI è il codice a barre della proprietà intellettuale: per saperne di più clicca qui

Qui sotto puoi vedere in anteprima la prima pagina di questo articolo.

Se questo articolo ti interessa, lo puoi acquistare (e scaricare in formato pdf) seguendo le facili indicazioni per acquistare il download credit. Acquista Download Credits per scaricare questo Articolo in formato PDF

Anteprima articolo

FrancoAngeli è membro della Publishers International Linking Association, Inc (PILA)associazione indipendente e non profit per facilitare (attraverso i servizi tecnologici implementati da CrossRef.org) l’accesso degli studiosi ai contenuti digitali nelle pubblicazioni professionali e scientifiche

L’articolo propone quattro scenari per restituire diverse intensità/modalità/velocità di diffusione dei veicoli elettrici nella Regione urbana milanese. Gli scenari, costruiti con un’analisi multicriteri che analizza le relazioni tra mobilità elettrica, pratiche di mobilità, caratteristiche socio-economiche e insediative, offrono elementi per definire politiche di incentivo e di regolazione per una transizione sostenibile ed equa verso una mobilità a basse emissioni di carbonio.;

Keywords:Mobilità elettrica; transizione; impatti spaziali; analisi multicriteri; Regione urbana milanese.

  1. Schot J. and Geels F.W. (2008). Strategic niche management and sustainable innovation journeys: theory, findings, research agenda, and policy. Technology Analysis and Strategic Management, 20(5): 537-554. DOI: 10.1080/0953732080229265
  2. Schuitema G., Anable J., Skippon S. and Kinnear N. (2013). The role of instrumental, hedonic and symbolic attributes in the intention to adopt electric vehicles. Transportation Research Part A – Policy and Practice, 48: 39-49.
  3. Schwanen T. (2015). The bumpy road toward low-energy urban mobility: case studies from two UK Cities. Sustainability, 7(6): 7086-7111.
  4. Shepherd S., Bonsall P. and Harrison G. (2012). Factors affecting future demand for electric vehicles: a model based study. Transportation Policy, 20: 62-74.
  5. Sierzchula W., Bakker S., Maat K. and Van Wee B. (2014). The influence of financial incentives and other socio-economic factors on electric vehicle adoption. Energy Policy, 68: 183-194.
  6. Tran M., Bishop J.D.K., Banister D. and Mcculloch M.D. (2002). Realizing the electric vehicle revolution. Natural Climate Change, 2: 328-333.
  7. Wu X., Freese D., Cabrera A. and Kitch W.A. (2015). Electric vehicles’ energy consumption measurement and estimation. Transportation Research Part D –Transport and Environment, 34: 52-67.
  8. Zubaryeva A., Thiel C., Barbone E. and Mercier A. (2012). Assessing factors for the identification of potential lead markets for electrified vehicles in Europe: expert opinion elicitation. Technological Forecasting and Social Change, 79: 1622-1637.
  9. Axsen J., Goldberg S. and Bailey J. (2016). How might potential future plug-in electric vehicle buyers differ from current “Pioneer” owners? Transportation Research Part D – Transport and Environment, 47: 357-370.
  10. Bakker S. and Trip J. (2013). Policy options to support the adoption of electric vehicles in the urban environment. Transportation Research Part D –Transport and Environment, 25: 18-23.
  11. Bailey J., Miele A. and Axsen J. (2015). Is awareness of public charging associated with consumer interest in plug-in electric vehicles? Transportation Research Part D – Transport and Environment, 36: 1-9.
  12. Balducci A., Fedeli V. e Curci F. (a cura di) (2017). Oltre la metropoli. L’urbanizzazione regionale in Italia. Milano: Angelo Guerini e Associati. Bansal P., Kockelman K.M. and Wang Y. (2015). Hybrid electric vehicle ownership and fuel economy across Texas. Transportation Research Record Journal of the Transportation Research Board, 2495: 53-64. DOI: 10.3141/2495-06
  13. Bauer G. (2018). The impact of battery electric vehicles on vehicle purchase and driving behavior in Norway. Transportation Research Part D – Transport and Environment, 58, 239-258.
  14. Bergman N., Schwanen T. and Sovacool B. (2017). Imagined people, behaviour and future mobility: Insights from visions of electric vehicles and car clubs in the United Kingdom. Transport Policy, 59: 165-173.
  15. Boeri S., Lanzani A. e Marini E. (1993). Il territorio che cambia. Ambienti, paesaggi e immagini della regione milanese. Milano: AIM – Abitare Segesta Cataloghi.
  16. Bradley T.H. and Frank A.A. (2009). Design, demonstrations and sustainability impact assessments for plug-in hybrid electric vehicles. Renewable Sustainable Energy Reviews, 13: 115.
  17. Campbell A.R., Ryley T. and Thring R. (2012). Identifying the early adopters of alternative fuel vehicles: a case study of Birmingham, United Kingdom. Transportation Research Part A: Policy and Practice, 46(8): 1318-1327.
  18. Cecere G., Corrocher N. and Guerzoni M. (2018). Price or performance? A probabilistic choice analysis of the intention to buy electric vehicles in European countries. Energy Policy, 118: 19-32.
  19. Chen T.D., Wang Y. and Kockelman K.M. (2015). Where are the electric vehicles? A spatial model for vehicle-choice count data. Journal of Transport Geography: 43: 181-188.
  20. Coenen L., Benneworth P. and Truffer B. (2012). Toward a spatial perspective on sustainability transitions. Research Policy: 41(6): 968-979.
  21. Curtin R., Shrago Y. and Mikkelsen J. (2009). Plug-in Hybrid Electric Vehicles. Ann Arbor: University of Michigan. -- Testo disponibile al sito: www.ns.umich.edu/Releases/2009/Oct09/PHEV_Curtin.pdf.
  22. Dimatulac T. and Maoh H. (2017). The spatial distribution of hybrid electric vehicles in a sprawled mid-size Canadian city: evidence from Windsor, Canada. Journal of Transport Geography, 60: 59-67.
  23. Faria R., Moura P., Delgado J. and de Almeida A.T. (2012). A sustainability assessment of electric vehicles as a personal mobility system. Energy Convers. Manage, 61: 19-30.
  24. Fornahl D. and Werner N. (2015). Erratum to: New Electric Mobility in Fleets in the Rural Area of Bremen/Oldenburg. In: Leal Filho W. and Kotter R., eds., E-Mobility in Europe. Green Energy and Technology. Cham: Springer. DOI: 10.1007/978-3-319-13194-8_1
  25. Gallagher K.S. and Muehlegger E. (2011). Giving green to get green? Incentives and consumer adoption of hybrid vehicle technology. Journal of Environmental Economics and Management, 61: 1-15.
  26. Geels F.W. (2012). A socio-technical analysis of low-carbon transitions: introducing the multi-level perspective into transport studies. Journal of Transport Geography, 24: 471-482.
  27. Givoni M. (2013). Alternative pathways to low carbon mobility. In: Givoni M. and Banister D., eds., Moving towards low carbon mobility. Cheltenham: Edward Elgar Publishing.
  28. Giua P. (2019). I territori dell’auto elettrica: possibili strategie e azioni per governare la transizione. Tesi di Laurea Magistrale. Milano: PUPT, Politecnico di Milano.
  29. Goodwin P. and van Dender K. (2013). “Peak Car” – Themes and Issues. Transport Reviews, 33(3): 243-254. DOI: 10.1080/01441647.2013.80413
  30. Hardman S., Jenn A. and Tal G. (2018). A review of consumer preferences of and interactions with electric vehicle charging infrastructure. Transportation Research Part D – Transport and Environment, 62(July): 508-523.
  31. He L., Chen W. and Conzelmann G. (2012). Impact of vehicle usage on consumer choice of hybrid electric vehicles. Transportation Research Part D: Transport and Environment, 17: 208-214.
  32. Heinen E. and Mattioli G. (2017). Does a high level of multimodality mean less car use? An exploration of multimodality trends in England. Transportation, 46: 1093-1126.
  33. Helmers E. and Marx P. (2012). Electric cars: technical characteristics and environmental impacts. Environmental Sciences Europe, 24(14). DOI: 10.1186/2190-4715-24-1
  34. Hickman R., Saxena S., Banister D. and Ashiru O. (2012). Examining transport futures with scenario analysis and MCA. Transportation Research Part A, 46: 560-575.
  35. Higgins P., Paevere J., Gardner G. and Quezada (2012). Combining choice modelling and multi-criteria analysis for technology diffusion: an application to the uptake of electric vehicles. Technological Forecasting and Social Change, 79: 1399-1412.
  36. Higgins C.D., Mohamed M. and Ferguson M.R. (2017). Size matters: How vehicle body type affects consumer preferences for electric vehicles. Transportation Research Part A: Policy and Practice, 100(June): 182-201.
  37. Kester J., Sovacool B.K., Noel L. and Zarazua de Rubens G. (2020). Rethinking the spatiality of Nordic electric vehicles and their popularity in urban environments: Moving beyond the city? Journal of Transport Geography, 82.
  38. Kihm A. and Trommer S. (2014). The new car market for electric vehicles and the potential for fuel substitution. Energy Policy, 73: 147-157.
  39. Lanzani A. (1996). Geografie degli ambienti insediativi lombardi. Schede descrittive e interpretative. Territorio, 3: 85-123.
  40. Liao F., Molin E. and van Wee B. (2017). Consumer preferences for electric vehicles: a literature review. Transport Reviews: a transnational, transdisciplinary journal, 37(3): 252-275. DOI: 10.1080/01441647.2016.123079
  41. Liu X., Roberts M.C. and Sioshansi R. (2017). Spatial effects on hybrid electric vehicle adoption. Transportation Research Part D – Transport and Environment, 52: 85-97.
  42. Ma H., Balthasar F., Tait N., Riera-Palou X. and Harrison A. (2012). A new comparison between the life cycle greenhouse gas emissions of battery electric vehicles and internal combustion vehicles. Energy Policy, 44: 160-173.
  43. Morton C., Anable J., Yeboahd G. and Cottrillc C. (2018). The spatial pattern of demand in the early market for electric vehicles: Evidence from the United Kingdom. Journal of Transport Geography, 72: 119-130.
  44. Morton C., Lovelace R. and Anable J. (2017). Exploring the effect of local transport policies on the adoption of low emission vehicles: evidence from the London Congestion Charge and Hybrid Electric Vehicles. Transportation Policy, 60: 34-46.
  45. Namdeo A., Tiwary A. and Dziurla R. (2014). Spatial planning of public charging points using multi-dimensional analysis of early adopters of electric vehicles for a city region. Technological Forecasting and Social Change, 89: 188-200.
  46. Newman D., Wells P., Donovan C., Nieuwenhuis P. and Davies H. (2014). Urban, sub-urban or rural: where is the best place for electric vehicles? International Journal of Automotive Technology and Management, 14 (3-4): 306-323. DOI: 10.1504/IJATM.2014.06529
  47. Palermo P.C. (1997) (a cura di). Linee di assetto e scenari evolutivi della regione urbana milanese. Atlante delle trasformazioni insediative. Quaderni di Dipartimento. Milano: FrancoAngeli.
  48. Plötz P., Schneider U., Globisch J. and Dütschke E. (2014). Who will buy electric vehicles? Identifying early adopters in Germany. Transportation Research Part A – Policy and Practice, 67: 96-109.
  49. Potter S. (2007). Exploring approaches towards a sustainable transport system. International Journal of Sustainable Transportation, 1: 115-131. DOI: 10.1080/1556831060109199
  50. Ryghaug M. and Toftaker M. (2016). Creating transitions to electric road transport in Norway: the role of user imaginaries. Energy Research and Social Science, 17: 119-126.
  51. Rogers E.M. (1995). Diffusion of Innovations. New York: Simon and Schuster. Saarenpää J., Kolehmainen M. and Niska H. (2013). Geodemographic analysis and estimation of early plug-in hybrid electric vehicle adoption. Applied Energy 107: 456-464.
  52. Saaty T.L. (2005). The analytic hierarchy and analytic network processes for the measurement of intangible criteria and for decision-making. In: Figueira J., Greco S. and Ehrgott M., eds., Multiple criteria decision analysis: state of the art surveys. Heidelberg: Springer, 345-405.
  53. Saaty T.L. (2008). Decision making with the analytic hierarchy process. International Journal of Services Sciences, 1(1): 83-98. DOI: 10.1504/IJSSCI.2008.01759
  54. Sandy Thomas C.E. (2012). How green are electric vehicles? International Journal of Hydrogen Energy, 37(7): 6053-6062.

Paola Pucci, I territori dell’auto elettrica: oltre il paradigma urbanocentrico in "ARCHIVIO DI STUDI URBANI E REGIONALI" 128/2020, pp 14-37, DOI: 10.3280/ASUR2020-128003