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Review Article |

Identifying and Mitigating the Barriers for Vehicle-to-Grid Adoption in India

Author(s) : Aditya1, Rachit Bansal2, Akshit Goel3, N.K. Jain4 and Uma Nangia5

Published In : International Journal of Electrical and Electronics Research (IJEER)        Volume 10, Issue 3, Special Issue on Recent Advancements in the Electrical & Electronics Engineering

Publisher : FOREX Publication

Published : 10 August 2022

e-ISSN : 2347-470X

Page(s) : 447-453

DOI: https://doi.org/10.37391/IJEER.100307

Abstract

This study gauges the current scenario of EVs in India as a precursor to the adoption of V2G on a large scale. It outlines the barriers to complete EV adoption under three challenge categories. It discusses the motivation for the use of vehicle-to-grid by describing the technology in detail and discussing an overview of how it works. Lastly, the study outlines how popular optimization techniques have been employed to solve individual optimization and scheduling tasks to optimize power, cost, and emissions for V2G.

Keywords: Vehicle-to-Grid Technology, Electric Vehicles, Smart Grid , Power Optimization




Aditya, Department of Electrical Engineering, Delhi Technological University, Delhi, India; Email: aditya_2k18ee008@dtu.ac.in

Rachit Bansal, Department of Electrical Engineering, Delhi Technological University, Delhi, India; Email: rachitbansal_2k18ee152@dtu.ac.in

Akshit Goel, Department of Electrical Engineering, Delhi Technological University, Delhi, India; Email: akshitgoel_2k18ee017@dtu.ac.in

N.K. Jain, MIE, LMISTE, FMIETE, Department of Electrical Engineering, Delhi Technological University, Delhi, India; Email: vnarender84@yahoo.com

Uma Nangia, MIE, LMISTE, Member IEEE, Department of Electrical Engineering, Delhi Technological University, Delhi, India; Email: umanangia@dce.ac.in

    [1] Marc Barbar et al. “Scenarios of future Indian electricity demand accounting for space cooling and electric vehicle adoption”. In: Scientific Data 8.1 (2021), pp. 1–11.[Cross Ref]
    [2] Rubal Dua et al. “Enablers and disablers to plug-in electric vehicle adoption in India: Insights from a survey of experts”. In: Energy Reports 7 (2021), pp. 3171–3188.[Cross Ref]
    [3] Sonali Goel, Renu Sharma, and Akshay Kumar Rathore. “A review on barrier and challenges of electric vehicle in India and vehicle to grid optimisation”. In: Transportation Engineering 4 (2021), p. 100057. ISSN: 2666-691X. DOI: https://doi.org/10.1016/j.treng.2021.100057. URL: https://www.sciencedirect.com/science/article/pii/S2666691X21000130)[Cross Ref]
    [4] Vishal Singh Patyal, Ravi Kumar, and Shiksha Kushwah. “Modeling barriers to the adoption of electric vehicles: An Indian perspective”. In: Energy 237 (2021), p. 121554. ISSN: 0360-5442. DOI: https://doi.org/10.1016/j.energy.2021.121554. URL:https://. sciencedirect.com /science /article /pii /S0360544221018028. [Cross Ref]
    [5] IBEF. Automobile Industry in India. https://www. ibef.org/industry/india- automobiles.aspx. [Online; accessed Nov-2021]. 2021.[Cross Ref]
    [6] Som Sekhar Bhattacharyya and Shreyash Thakre. “Exploring the factors influencing electric vehicle adoption: an empirical investigation in the emerging economy context of India”. In: foresight (2020).[Cross Ref]
    [7] Chien-fei Chen et al. “Assessing the socio- demographic, technical, economic and behavioral factors of Nordic electric vehicle adoption and the influence of vehicle-to-grid preferences”. In: Renewable and Sustainable Energy Reviews 121 (2020), p. 109692.[Cross Ref]
    [8] Rupesh Kumar et al. “Addressing the challenges to electric vehicle adoption via sharing economy: an Indian perspective”. In: Management of Environmental Quality: An International Journal (2020)[Cross Ref]
    [9] Nele Rietmann, Beatrice Hügler, and Theo Lieven. “Forecasting the trajectory of electric vehicle sales and the consequences for worldwide CO2 emissions”. In: Journal of Cleaner Production 261 (2020), p. 121038. [Cross Ref]
    [10] Lo Zhenbo et al. “Optimal Driving Range for Battery Electric Vehicles Based on Modeling Users’ Driving and Charging Behavior”. In: Innovative Methods for Data Informed Multimodal Transport Flow and System Analysis (2020).[Cross Ref]
    [11] Sid-Ali Amamra and James Marco. “Vehicle-to-grid aggregator to support power grid and reduce electric vehicle charging cost”. In: IEEE Access 7 (2019), pp. 178528–178538.[Cross Ref]
    [12] Riccardo Iacobucci, Benjamin McLellan, and Tetsuo Tezuka. “Optimization of shared autonomous electric vehicles operations with charge scheduling and vehicle-to-grid”. In: Transportation Research Part C: Emerging Technologies 100 (2019), pp. 34–52. ISSN: 0968-090X. DOI:https://doi.org/10.1016/j.trc.2019.01.011. URL: https://www.sciencedirect.com/science/article/pii/S0968090X18309197[Cross Ref]
    [13] Hasan Mehrjerdi and Elyas Rakhshani. “Vehicle-to- grid technology for cost reduction and uncertainty management integrated with solar power”. In: Journal of Cleaner Production 229 (2019), pp. 463–469. [Cross Ref]
    [14] Amit Shankar and Pooja Kumari. “Exploring the enablers and inhibitors of electric vehicle adoption intention from sellers’ perspective in India: A view of the dual-factor model”. In: International Journal of Nonprofit and Voluntary Sector Marketing 24.4 (2019), e1662[Cross Ref]
    [15] Rachana Vidhi and Prasanna Shrivastava. “A review of electric vehicle lifecycle emissions and policy recommendations to increase EV penetration in India”. In: Energies 11.3 (2018), p. 483 [Cross Ref]
    [16] T Donna Chen, Kara M Kockelman, and Josiah P Hanna. “Operations of a shared, autonomous, electric vehicle fleet: Implications of vehicle & charging infrastructure decisions”. In: Transportation Research Part A: Policy and Practice 94 (2016), pp. 243–254.[Cross Ref]
    [17] Kang Miao Tan, Vigna K Ramachandaramurthy, and Jia Ying Yong. “Integration of electric vehicles in smart grid: A review on vehicle to grid technologies and optimization techniques”. In: Renewable and Sustainable Energy Reviews 53 (2016), pp. 720–732.[Cross Ref]
    [18] Linni Jian et al. “Optimal scheduling for vehicle-to- grid operation with stochastic connection of plug-in electric vehicles to smart grid”. In: Applied Energy 146 (2015), pp. 150–161. ISSN: 0306-2619. DOI: https: //doi.org/10.1016/j.apenergy.2015.02.030. URL: https://www.sciencedirect.com/science/article/pii/S030626191500207X. [Cross Ref]
    [19] Linni Jian et al. “A scenario of vehicle-to-grid implementation and its double-layer optimal charging strategy for minimizing load variance within regional smart grids”. In: Energy Conversion and Management 78 (2014), pp. 508–517. ISSN: 0196-8904. DOI: https://doi.org/10.1016/j. enconman.2013.11.007. URL: https://www.sciencedirect.com/science/article/pii/ S0196890413007280T [Cross Ref]
    [20] Zhenhong Lin. “Optimizing and diversifying electric vehicle driving range for US drivers”. In: Transportation Science 48.4 (2014), pp. 635–650.[Cross Ref]
    [21] Ahmed Yousuf Saber and Ganesh Kumar Venayagamoorthy. “Intelligent unit commitment with vehicle-to-grid —A cost-emission optimization”. In: Journal of Power Sources 195.3 (2010), pp. 898–911. ISSN: 0378- 7753. DOI: https://doi.org/10.1016/j.jpowsour.2009. 08.035. URL: https://www.sciencedirect.com/science/article/pii/S037877530901341X.[Cross Ref]
    [22] Ahmed Yousuf Saber and Ganesh Kumar Venayag-amoorthy. “Intelligent unit commitment with vehicle-to-grid—A cost-emission optimization”. In: Journal of Power Sources 195.3 (2010), pp. 898–911.[Cross Ref]
    [23] Ahmed Yousuf Saber and Ganesh Kumar Venayagamoorthy. “Optimization of vehicle-to-grid scheduling in constrained parking lots”. In: 2009 IEEE Power Energy Society General Meeting. 2009, pp. 1–8. DOI: 10.1109/PES.2009.5275205.[Cross Ref]
    [24] Ahmed Yousuf Saber and Ganesh Kumar Venayagamoorthy. “Unit commitment with vehicle-to-grid using particle swarm optimization”. In: 2009 IEEE Bucharest PowerTech. IEEE. 2009, pp. 1–8.[Cross Ref]
    [25] Femy P. H., Jayakumar J. (2021), A Review on the Feasibility of Deployment of Renewable Energy Sources for Electric Vehicles under Smart Grid Environment. IJEER 9(3), 57-65. DOI: 10.37391/IJEER.0903061.[Cross Ref]
    [26] Himabindu Eluri, M. Gopichand Naik (2022), Energy Management System and Enhancement of Power Quality with Grid Integrated Micro-Grid using Fuzzy Logic Controller. IJEER 10(2), 256-263. DOI: 10.37391/IJEER.100234.[Cross Ref]

Aditya, Rachit Bansal, Akshit Goel, N.K. Jain and Uma Nangia (2022), Identifying and Mitigating the Barriers for Vehicle-to-Grid Adoption in India. IJEER 10(3), 447-453. DOI: 10.37391/IJEER.100307.