Abdulgader ALSHARİF, Wamidh Mazher, Osman Nuri UÇAN, Oğuz BAYAT

Optimization Of Electrical Charging Station Capacity = Elektrik Şarf İstasyon Kapasitelerinin Optimizasyonu

AbstractElectrical vehicle charging Station (EVCS) is a new system that used as a petrol station to get the optimizationmethod for the Electric Vehicle Charge Station by finding the capacity of using mathematical models. It is designedto organize some of tools that are used to count the costs such as PVs, Battery Banks, Transmission linesand Electric vehicles (EVs). The system analysis charging via main grid and Photovoltaic to charge different typesof cars depending on some of international standard critical points.ÖzetElektrikli araç şarj istasyonu (EVCS), benzin istasyonu olarak kullanılan, elektrikli Araç Ücret İstasyonu için optimizasyonmetodunu elde etmek için matematiksel modellerle kullanma kapasitesini bulan yeni bir sistemdir. PV’ler,Akü Bankaları, İletim hatları ve Elektrikli araçlar (EV’ler) gibi ürünlerin maliyetleri bulmak için tasarlanmıştır. Anaşebekeden ve Fotovoltaik’den farklı araç tiplerini şarj etmek için yapılan sistem analizi, bazı uluslararası standartkritik noktalara bağlıdır.

Keywords:

Mathematical Model, PVs model, EVs, Battery Bank, Electricity grid, solar irradiance, Optimization PV model, Güneş ışıması, Matematik modelleme, optimizasyon,

PDF

___

What are the different types of solar photovoltaic cells?: Types of Solar Photovoltaic Cell, The Renewable Energy Hub , Retrieved from https://www.renewableenergyhub.co.uk/solar-panels/whatare- the-different-types-of-solar-photovoltaic-cells.html
Shaoyun, G., Liang, F. E. N. G., Hong, L., & Long, W. A. N. G. (2012, November). The planning of electric vehicle charging stations in the urban area. In Electric & Mechanical Engineering and Information Technology (EMEIT) Conference (pp. 1598-1604). Rahimi-Eichi, H., Ojha, U., Baronti, F., & Chow, M. Y. (2013). Battery management system: An overview of its application in the smart grid and electric vehicles. IEEE Industrial Electronics Magazine, 7(2), 4-16.
Ustun, T. S., Zayegh, A., & Ozansoy, C. (2013). Electric vehicle potential in Australia: Its impact on smartgrids. IEEE Industrial Electronics Magazine, 7(4), 15-25.
R. Bailey (2012), Electric Vehicles- Performance of Vehicle Battery Systems, The University of Tennessee at Chattanooga, Retrieved from https://www.utc.edu/404.php?uri=/college-engineering-computer- science/research-centers/cete/electric.php+
Rahimi-Eichi, H., Ojha, U., Baronti, F., & Chow, M. Y. (2013). Battery management system: An overview of its application in the smart grid and electric vehicles. IEEE Industrial Electronics Magazine, 7(2), 4-16.
MATHEMATICAL MODELLING, mathematic help center, Retrieved from http://www.hec.ca/en/cam/ help/topics/Mathematical_modelling.pdf
Alsharif, A., Othman, A., Alsgear, M., Kura, F. Ben, & Mahariq, I. (2017). Utilization of Solar Power in Distributing Substation. International Journal of Electronics and Electrical Engineering, 5(2), 189– 194 https://doi.org/10.18178/ijeee.5.2.189-194.
Rahimi-Eichi, H., Ojha, U., Baronti, F., & Chow, M. (2013). Battery Management System: An Overview of Its Application in the Smart Grid and Electric Vehicles. Industrial Electronics Magazine, IEEE, 7(June), 4–16. https://doi.org/10.1109/MIE.2013.2250351
Hydro-Québec. (2015). Electric Vehicle Charging Stations, (August). Retrieved from http://www.hydroquebec. com/data/electrification-transport/pdf/technical-guide.pdf
Ceil. (2017). Retrieved from https://www.mathworks.com/help/matlab/ref/ceil.html?s_tid=srchtitle
Dillinger, J. (2017). Cost of Electricity by Country, Retrieved from http://www.worldatlas.com/articles/ electricity-rates-around-the-world.html
Qian, K., Zhou, C., Allan, M., & Yuan, Y. (2011). Modeling of load demand due to EV battery charging in distribution systems. IEEE Transactions on Power Systems, 26(2), 802-810.