Affiliation:
1. Department of Electrical and Electronic Engineering, Auckland University of Technology, Auckland 1010, New Zealand
Abstract
Electric vehicles (EVs) are one of a prominent solution for the sustainability issues needing dire attention like global warming, depleting fossil fuel reserves, and greenhouse gas (GHG) emissions. Conversely, EVs are shown to emit higher emissions (measured from source to tailpipe) for the fossil fuel-based countries, which necessitates renewable energy sources (RES) for maximizing EV benefits. EVs can also act as a storage system, to mitigate the challenges associated with RES and to provide the grid with ancillary services, such as voltage regulation, frequency regulation, spinning reserve, etc. For extracting maximum benefits from EVs and minimizing the associated impact on the distribution network, modelling optimal integration of EVs in the network is required. This paper focuses on reviewing the state-of-the-art literature on the modelling of grid-connected EV-PV (photovoltaics) system. Further, the paper evaluates the uncertainty modelling methods associated with various parameters related to the grid-connected EV-PV system. Finally, the review is concluded with a summary of potential research directions in this area. The paper presents an evaluation of different modelling components of grid-connected EV-PV system to facilitate readers in modelling such system for researching EV-PV integration in the distribution network.
Reference124 articles.
1. Viability of xEVs in India: A public opinion survey;Asaad;Lecture Notes in Electrical Engineering,2018
2. Bunsen, T., Cazzola, P., Gorner, M., Paoli, L., Scheffer, S., Schuitmaker, R., Tattini, J., and Teter, J. (2018). Global EV Outlook 2018: Towards Cross-Modal Electrification, International Energy Agency.
3. Monteiro, V., Gonçalves, H., and Afonso, J.L. (2011, January 17–19). Impact of Electric Vehicles on power quality in a Smart Grid context. Proceedings of the 11th International Conference on Electrical Power Quality and Utilisation, Lisbon, Portugal.
4. Optimisation of demand response in electric power systems, a review;Jordehi;Renew. Sustain. Energy Rev.,2019
5. Demand side management: Benefits and challenges;Strbac;Energy Policy,2008
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