Globally, Electric vehicles (EV) demand is improving gradually, which necessitates the increased number of charging stations (Fixed charging stations (FCS) and mobile charging stations (MCS)). Hence, this paper covers user and performance survey for EV Research. The performance surveys depicted the current status of EV and the proposed ideas of the authors. The user surveys showed the mindset of the EV users. The review of charging station is also included, which depicts the design, location, siting and sizing, planning, and optimal model of FCS and also MCS. Additionally, the environmental impact of FCS and MCS has also been discussed which include both merits and demerits. Thereby, the design of Road assistance Vehicle for MCS has been proposed in developing countries like India which would be great financial assistance to road side vendors and low cadre people. The future research work that can be addressed is also identified. It includes the reduction of battery size, reducing investment cost of FCS, reducing charging time of Electric vehicle etc.
REFERENCES
1.
A. S.
Abdelrahman
, Z.
Erdem
, Y.
Attia
and M. Z.
Youssef
, “Wide Bandgap Devices in Electric Vehicle Converters: A Performance Survey Dispositifs à large bande interdite dans les convertisseurs des véhicules électriques: une revue sur la performance
,” Can. J. Electr. Comput. Eng
, 41
(1
), 45
–54
(2018
).2.
F.
Grazian
, W.
Shi
, J.
Dong
, P.
van Duijsen
, T. B.
Soeiro
and P.
Bauer
, “Survey on Standards and Regulations for Wireless Charging of Electric Vehicles
,” in 2019 AEIT International Conference of Electrical and Electronic Technologies for Automotive (AEIT AUTOMOTIVE
), 1
–5
(2019
).3.
P.
Bauer
, N.
Stembridge
, J.
Doppler
and P.
Kumar
, “Battery modeling and fast charging of EV
,” in Proceedings of 14th International Power Electronics and Motion Control Conference EPE-PEMC 2010
, S11
-39
-S11-45 (2010
).4.
X.
Gong
, T.
Lin
and B.
Su
, “Survey on the impact of Electric Vehicles on power distribution grid
,” in 2011 IEEE Power Engineering and Automation Conference
, 2
, 553
–557
(2011
).5.
M. R.
Khalid
, M. S.
Alam
, A.
Sarwar
and M. S. Jamil
Asghar
, “A Comprehensive review on electric vehicles charging infrastructures and their impacts on power-quality of the utility grid
,” eTransportation
, 1
, 100006
(2019
).6.
M.
Shepero
, J.
Munkhammar
, J.
Widén
, J. D. K.
Bishop
and T.
Boström
, “Modeling of photovoltaic power generation and electric vehicles charging on city-scale: A review
,” Renew. Sustain. Energy Rev
, vol. 89
, 61
–71
(2018
).7.
A.
Cartenì
, E.
Cascetta
, and S.
de Luca
, “A random utility model for park & carsharing services and the pure preference for electric vehicles
,” Transp. Policy
, 48
, 49
–59
(2016
).8.
K.
Kurani
, D.
Sperling
and T.
Turrentine
, “The marketability of electric vehicles: battery performance and consumer demand for driving range
,” in Proceedings of 11th Annual Battery Conference on Applications and Advances
, 153
–158
(1996
).9.
V.
Bobanac
, H.
Pandzic
and T.
Capuder
, “Survey on electric vehicles and battery swapping stations: Expectations of existing and future EV owners
,” in 2018 IEEE International Energy Conference (ENERGYCON
), 1
–6
(2018
) doi: .10.
M.
Nicholas
and G.
Tal
, “Dynamics of workplace charging for plug-in electric vehicles: How much is needed and at what speed?
,” in 2013 World Electric Vehicle Symposium and Exhibition (EVS27
), 1
–10
(2013
).11.
T.
Takahashi
and S.
Tamura
, “Day-Ahead Planning for EV Aggregators Based on Statistical Analysis of Road Traffic Data in Japan
,” in 2020 International Conference on Smart Grids and Energy Systems (SGES
), 117
–122
(2020
).12.
S. M.
Shariff
, M. S.
Alam
, F.
Ahmad
, Y.
Rafat
, M. S. J.
Asghar
and S.
Khan
, “System Design and Realization of a Solar-Powered Electric Vehicle Charging Station
,” IEEE Syst. J
, 14
(2
), 2748
–2758
(2020
).13.
D.
Ji
, M.
Lv
, J.
Yang
and W.
Yi
, “Optimizing the Locations and Sizes of Solar Assisted Electric Vehicle Charging Stations in an Urban Area
,” IEEE Access
, 8
, 112772
–112782
(2020
).14.
F. A.
Tiano
, G.
Rizzo
and D.
Marra
, “Design and Optimization of a Charging Station for Electric Vehicles based on Compressed Air Energy Storage
,” IFAC-PapersOnLine
, 51
(9
), 230
–235
(2018
).15.
D.
Iannuzzi
and P.
Franzese
, “Ultrafast charging station for electrical vehicles: Dynamic modelling, design and control strategy
,” Math. Comput. Simul
, 184
, 225
–243
(2021
).16.
S.
Deb
, K.
Tammi
, K.
Kalita
and P.
Mahanta
, “Charging Station Placement for Electric Vehicles: A Case Study of Guwahati City, India
,” IEEE Access
, 7
, 100270
–100282
(2019
).17.
M. Z.
Zeb
, K.
Imran
, A.
Khattak
, A. K.
Janjua
, A.
Pal
, M.
Nadeem
and S.
Khan
, “Optimal placement of electric vehicle charging stations in the active distribution network
,” IEEE Access
, 8
, 68124
–68134
(2020
).18.
S.
Yang
, S.
Sun
, S.
Deng
, Q.
Zhao
, and M.
Zhou
, “Optimal Sizing of PEV Fast Charging Stations With Markovian Demand Characterization
,” IEEE Trans. Smart Grid
, 10
(4
), 4457
–4466
(2019
).19.
S.
Negarestani
, M.
Fotuhi-Firuzabad
, M.
Rastegar
and A.
Rajabi-Ghahnavieh
, “Optimal Sizing of Storage System in a Fast Charging Station for Plug-in Hybrid Electric Vehicles
,” IEEE Trans. Transp. Electrif
, 2
(4
) 443
–453
(2016
).20.
M.
Asna
, H.
Shareef
, P.
Achikkulath
, H.
Mokhlis
, R.
Errouissi
and A.
Wahyudie
, “Analysis of an Optimal Planning Model for Electric Vehicle Fast-Charging Stations in Al Ain City, United Arab Emirates
,” IEEE Access
, 9
, 73678
–73694
(2021
).21.
S.
Pazouki
, A.
Mohsenzadeh
, M. R.
Haghifam
and S.
Ardalan
, “Simultaneous allocation of charging stations and capacitors in distribution networks improving voltage and power loss
,” Can. J. Electr. Comput. Eng
, 38(2)
, 100
–105
(2015
).22.
F.
He
, D.
Wu
, Y.
Yin
and Y.
Guan
, “Optimal deployment of public charging stations for plug-in hybrid electric vehicles
,” Transp. Res. Part B Methodol
, 47
, 87
–101
(2013
).23.
M. M.
Vazifeh
, H.
Zhang
, P.
Santi
and C.
Ratti
, “Optimizing the deployment of electric vehicle charging stations using pervasive mobility ata
,” Transp. Res. Part A Policy Pract
, 121
, 75
–91
(2019
).24.
S. N.
Yang
, H. W.
Wang
, C. H.
Gan
and Y. B.
Lin
, “Mobile Charging Station service in smart grid networks
,” 2012 IEEE 3rd Int. Conf. Smart Grid Commun. SmartGridComm
, 412
–417
(2012
).25.
H.
Chen
, Z.
Su
, Y.
Hui
and H.
Hui
, “Dynamic Charging Optimization for Mobile Charging Stations in Internet of Things
,” IEEE Access
, 6
, 53509
–53520
(2018
).26.
T. D.
Atmaja
and M.
Mirdanies
, “Electric vehicle mobile charging station dispatch algorithm
,” EnergyProcedia
, 68
, 326
–335
(2015
).27.
T. D.
Atmaja
, “Energy storage system using battery and ultracapacitor on mobile charging station for electric vehicle
,” Energy Procedia
, 68
, 429
–437
(2015
).28.
V.
Moghaddam
, I.
Ahmad
, D.
Habibi
and M. A. S.
Masoum
, “Dispatch management of portable charging stations in electric vehicle networks
,” eTransportation
, 8
, 100112
(2021
).29.
S. N.
Yang
, W. S.
Cheng
, Y. C.
Hsu
, C. H.
Gan
and Y. B.
Lin
, “Charge scheduling of electric vehicles in highways
,” Math. Comput. Model
, 57
(11–12
), 2873
–2882
(2013
).30.
J. N. James
Nguyen
, Patent No 2020036610631.
M. M. Koji
TAGUCHI
, Patent No 20190126766 (2018
).
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