Solar Energy Based Charging for Electric Vehicles at Fuel Stations

[1] Figueiredo R., Nunes P., Brito M. C. The feasibility of solar parking lots for electric vehicles. Energy 2017:140:1182–1197. https://doi.org/10.1016/j.energy.2017.09.024 Search in Google Scholar

[2] Mercan M. C., Kayalica M. Ö., Kayakutlu G., Ercan S. Economic model for an electric vehicle charging station with vehicle-to-grid functionality. International Journal of Energy Research 2020:44(8):6697–6708. https://doi.org/10.1002/er.5407 Search in Google Scholar

[3] dos Santos P., et al. Analysis of solar and wind energy installations at electric vehicle charging stations in a region in Brazil and their impact on pricing using an optimized sale price model. International Journal of Energy Research 2020:45(5):6745–6764. https://doi.org/10.1002/er.6269 Search in Google Scholar

[4] Osório G. J. et al. Rooftop photovoltaic parking lots to support electric vehicles charging: A comprehensive survey. International Journal of Electrical Power and Energy Systems 2021:133:107274. https://doi.org/10.1016/j.ijepes.2021.107274 Search in Google Scholar

[5] Turan M. T., Gökalp E. Integration Analysis of Electric Vehicle Charging Station Equipped with Solar Power Plant to Distribution Network and Protection System Design. Journal of Electrical Engineering and Technology 2022:17(2):903–912. https://doi.org/10.1007/s42835-021-00927-x Search in Google Scholar

[6] Nityanshi T., Mathur V. A., Tikkiwal, Nigam K. Feasibility analysis of a solar-assisted electric vehicle charging station model considering differential pricing. Energy Storage 2021:3(4):e237. https://doi.org/10.1002/est2.237 Search in Google Scholar

[7] al Wahedi A., Bicer Y. Assessment of a stand-alone hybrid solar and wind energy-based electric vehicle charging station with battery, hydrogen, and ammonia energy storages. Energy Storage 2019:1(5):e84. https://doi.org/10.1002/est2.84 Search in Google Scholar

[8] Yan D., Ma C. Stochastic planning of electric vehicle charging station integrated with photovoltaic and battery systems. IET Generation, Transmission and Distribution 2020:14(19):4217–4224. https://doi.org/10.1049/ietgtd.2019.1737 Search in Google Scholar

[9] Filote C., Felseghi R. A., Raboaca M. S., Aşchilean I. Environmental impact assessment of green energy systems for power supply of electric vehicle charging station. International Journal of Energy Research 2020:44(13):10471–10494. https://doi.org/10.1002/er.5678 Search in Google Scholar

[10] ISEE systems. STELLA Architect. Products. 2016. [Online]. [Accessed: 30.03.2022]. Available: https://www.iseesystems.com/store/products/overview.aspx Search in Google Scholar

[11] Vides aizsardzības un reģionālās attīstības ministrija. Elektromobiļi. (Ministry of Environmental Protection and Regional Development. Electric cars). 2021. [Online]. [Accessed: 30.03.2022]. Available: https://www.varam.gov.lv/lv/elektromobili?utm_source=https%3A%2F%2Fwww.google.com%2F (In Latvian). Search in Google Scholar

[12] Volkswagen. WW vehicle price.pdf. [Online]. [Accessed: 30.03.2022]. Available: https://www.volkswagen.co.uk/en/new.html Search in Google Scholar

[13] CSDD. Reģistrēto transportlīdzekļu skaits. Transportlīdzekļi. Statistika. (CSDD. Number of registered vehicles. Vehicles. Statistics). 2020. [Online]. [Accessed: 30.03.2022]. Available: https://www.csdd.lv/transportlidzekli/registreto-transportlidzeklu-skait (In Latvian). Search in Google Scholar

[14] Consolidated text: Directive 2014/94/EU of the European Parliament and of the Council of 22 October 2014 on the deployment of alternative fuels infrastructure. Official Journal of European Union 2014/94/EU. Search in Google Scholar

[15] IEA. Projected Costs of Generating Electricity 2020 – Analysis. 2021. [Online]. [Accessed: 30.03.2022]. Available: https://www.iea.org/reports/projected-costs-of-generating-electricity-2020 Search in Google Scholar

[16] Danish Energy Agency and Energinet. Technology Data. Energy Plants for Electricity and District heating generation. 2016. [Online]. [Accessed: 30.03.2022]. Available: https://ens.dk/sites/ens.dk/files/Statistik/technology_data_catalogue_for_el_and_dh_-_0009.pdf Search in Google Scholar

[17] Latvenergo. Elektroenerģijas cena. (Electricity prices). [Online]. [Accessed: 30.03.2022]. Available: https://latvenergo.lv/lv/jaunumi/elektroenergijas-cena/4 Search in Google Scholar

[18] Vides aizsardzības un reģionālās attīstības ministrija. Siltumnīcefekta gāzu emisiju aprēķina metodika. (Ministry of Environmental Protection and Regional Development. Calculation methodology of greenhouse gas emissions) Available: https://www.varam.gov.lv/lv/siltumnicefekta-gazu-emisiju-aprekina-metodika. (In Latvian). Search in Google Scholar

[19] Bosseboeuf D., Lapillone B., Rousselot M., Sudries L. Sectoral Profile – Transport. 2021:1:1–8. Available: https://www.odyssee-mure.eu/publications/efficiency-by-sector/transport/ Search in Google Scholar

[20] CSDD. Reģistrēto transportalīdzekļu sadalījums pēc degvielas veida. (Distribution of registered vehicles by fuel type). [Online]. [Accessed: 30.03.2022]. Available: https://www.csdd.lv/transportlidzekli/transportlidzeklivizualizacija (In Latvian). Search in Google Scholar

[21] CSDD. Vidējais degvielas patēriņš (Average fuel consumption). [Accessed: 30.03.2022] Available: https://www.csdd.lv/videjais-degvielas-paterins/rokasgramatas-par-videjo-degvielas-paterinu-un-co2-izpludi Search in Google Scholar

[22] Nityanshi T. Mathur V. A., Tikkiwal, Nigam K. Feasibility analysis of a solar-assisted electric vehicle charging station model considering differential pricing. Energy Storage 2021:3(4):e237. https://doi.org/10.1002/est2.237 Search in Google Scholar