Abstract
In India, electric vehicles (EVs) policy framework certifies that India’s electric mobility mission keeps tempo with the worldwide scale. India’s development projections create capability for emerging scopes for EV in certain segments. In India, a particular set of circumstances such as presence of useable renewable energy resources, readiness of expert work force and knowledge, an infrastructure and consumer conversion for applying technology, and cultural that promotes sharing, are encouraging to an ecological mobility concept have created a prospect for accelerated adoption of EVs over internal combustion engine vehicles.
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References
Climate Transparency homepage. https://www.climate-transparency.org/g20-climateperformance/g20report2019. Last accessed 8 Feb 2021
Priessner A, Sposato R, Hampl N (2018) Predictors of electric vehicle adoption: an analysis of potential electric vehicle drivers in Austria. Energy Policy 122:701–714
Luna TF, Uriona-Maldonado M, Silva ME, Vaz CR (2020) The influence of e-carsharing schemes on electric vehicle adoption and carbon emissions: an emerging economy study. Transp Res Part D 79:102226
Benvenutti LM, Ribeiro AB, Forcellini FA, Maldonado MU (2016) The effectiveness of tax incentive policies in the diffusion of electric and hybrid cars in Brazil. In: Proceedings of the XIV Congresso Latinoamericano de Dinamica de Sistemas, São Paulo, Brasil, 20–21 October 2016
Li Y (2016) Infrastructure to facilitate usage of electric vehicles and its impact. Transp Res Procedia 14:2537–2543
Christensen L, Klauenberg J, Kveiborg O, Rudolph C (2017) Suitability of commercial transport for a shift to electric mobility with Denmark and Germany as use cases. Res Transp Econ 64:48–60
O’Neill E, Moore D, Kelleher L, Brereton F (2019) Barriers to electric vehicle uptake in Ireland: perspectives of car-dealers and policymakers. Case Stud Transp Policy 7:118–127
Bubeck S, Tomaschek J, Fahl U (2016) Perspectives of electric mobility: total cost of ownership of electric vehicles in Germany. Transp Policy 50:63–77
Barisa A, Rosa M, Kisele A (2016) Introducing electric mobility in Latvian municipalities: results of a survey. Energy Procedia 95:50–57
Raslaviˇcius L, Azzopardi B, Keršys A, Stareviˇcius M, Bazaras Ž, Makaras R (2015) Electric vehicles challenges and opportunities: Lithuanian review. Renew Sustain Energy Rev 42:786–800
Mersky AC, Sprei F, Samaras C, Qian ZS (2016) Effectiveness of incentives on electric vehicle adoption in Norway. Transp Res Part D Transp Environ 46:56–68
Ingeborgrud L, Ryghaug M (2019) The role of practical, cognitive, and symbolic factors in the successful implementation of battery electric vehicles in Norway. Transp Res Part A 130:507–516
Camus C, Farias T, Esteves J (2011) Potential impacts assessment of plug-in electric vehicles on the Portuguese energy market. Energy Policy 39:5883–5897
Cansino JM, Yñiguez R (2018) Promoting electro mobility in Spain. Public measures and main data (2007–2012). Transp Res Part D 59:325–345
Ampudia-Renuncio M, Guirao B, Molina-Sanchez R (2018) The impact of free-floating carsharing on sustainable cities: analysis of first experiences in Madrid with the university campus. Sustain Cities Soc 43:462–475
Ampudia-Renuncio M, Guirao B, Molina-Sanchez R, Bragança L (2020) Electric free-floating Carsharing for sustainable cities: characterization of frequent trip profiles using acquired rental data. Sustainability 12:1248
Egnér F, Trosvik L (2018) Electric vehicle adoption in Sweden and the impact of local policy instruments. Energy Policy 121:584–596
Wee S, Coman M, La Croix S (2018) Do electric vehicle incentives matter? Evidence from the 50 U.S. States. Res Policy 47:1601–1610
Kester J, Noel L, de Rubens GZ, Sovacool BK (2018) Policy mechanisms to accelerate electric vehicle adoption: a qualitative review from the Nordic region. Renew Sustain Energy Rev 94:719–731
Luthra G (2017) Struggles faced in the research and development of electric vehicles in India: present. Scenario 5:34–37
Kurana A, Kumar RVV, Sidhpuria M (2019) A study of adoption of electric vehicles in India: the mediating role of attitude. Vision: J Bus Perspect. https://doi.org/10.1177/0972262919875548
Kumar R, Jha A, Damodaran A, Bangwal D, Dwivedi A (2020) Addressing the challenges to electric vehicle adoption via sharing economy: an Indian perspective. Manag Environ Qual 32(1):82–99. https://doi.org/10.1108/MEQ-03-2020-0058
Vidhi R, Shrivastava P (2018) A review of electric vehicle lifecycle emissions and policy recommendations to increase EV penetration in India. 11:483. https://doi.org/10.3390/en11030483
Sreeram K, Pretha PK, Poornachandran P (2019) Electric vehicle scenario in India: roadmap, challenges and opportunities. IEEE. 978-1-5386-8158
Mokaraiya KL, Shah VA, Lokhande MM (2015) Impact of penetration of electric vehicles on Indian power grid. EVS28 KINTEX, Korea, May 3–6
NITI Aayog, World Energy Council (2018) Zero Emission Vehicles (ZEVs): towards a policy framework
Ministry of Housing and Urban Affairs (MoHUA), Rocky Mountain Institute (RMI) (2019) Electric mobility: policy framework
Drishti homepage. https://www.drishtiias.com/to-the-points/paper3/electric-vehicles-evs. Last accessed 8 Feb 2021
International Council on Clean Transportation (ICCT) (2017) Zero emission buses are worth reaching for, but emission performance standards are the low-hanging fruit. Retrieved from https://www.theicct.org/blog/staff/zero-emission-buses-are-worth-reaching-for
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Shrivastava, A. (2023). Analyzing the Different EV Policy and Strategy Components Essential in Deploying the Electric Mobility in India. In: Dwivedi, S., Singh, S., Tiwari, M., Shrivastava, A. (eds) Flexible Electronics for Electric Vehicles. Lecture Notes in Electrical Engineering, vol 863. Springer, Singapore. https://doi.org/10.1007/978-981-19-0588-9_12
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