Power exchange in smart grids integrating renewable energy

• Autorzy: Mekkaoui Ali

Identyfikatory

DOI

10.15199/48.2020.12.17

Warianty tytułu

PL

Wymiana mocy w sieci typu smart grid z odnawialnymi źródłami energii

• Języki publikacji: EN

Abstrakty

EN

Smart grids are essentially characterized by reliability and energy efficiency so we can optimize the performance of the electrical system to ensure safe and reliable operation. This paper discusses smart grids in a future generation context and to value this goal, we consider a new model of hybrid system combining solar and wind energy. In order to automate and ensure a wide distribution of the transmission and distribution network we will consider the bidirectional transfer of electricity and information solution. Our task in this work is to envisage an electrical power system connected to different consumers who can themselves produce electrical energy. Renewable energies will be present both at the level of the network in general and the subscribers which will allow a power exchange between the different actors.

PL

W artykule analizowano sieć typu smart grid nowej generacji będącą hybrydą energi fotowoltaicznej i wiatrowej. Uwzględniono możliwość dwukierunkowego transferu energii. Uwzględniono też różne typy odbiorców, w tym także tych wytwarzających energię.

Słowa kluczowe

EN

active power; renewable energy; smart grids; optimization

PL

sieć smart grid; odnawialne źródła energii

• Wydawca: Wydawnictwo SIGMA-NOT
• Czasopismo: Przegląd Elektrotechniczny
• Rocznik: 2020
• Tom: R. 96, nr 12
• Strony: 91--94
• Opis fizyczny: Bibliogr. 16 poz., rys.

Twórcy

autor

Mekkaoui Ali

• University of Sidi Belabes, Algeria

Bibliografia

• [1] Molderink, A. Bakker, V. Bosman, M.G.C. Hurink, J.L. Smit, G.J.M, “Management and Control of Domestic Smart Grid Technology, ” IEEE Transactions on Smart Grid , (2010), vol.1, Issues 2, pp. 109-119
• [2] Anvari-Moghaddam A., Monsef H., Rahimi-Kian A., Optimal Smart Home Energy Management Considering Energy Saving and a Comfortable Lifestyle, IEEE Transactions on Smart Grid, (2015), 6, pp. 324-332
• [3] Hamidi, V., Smith, K.S., Wilson, R.C., Smart Grid technology review within the Transmission and Distribution sector IEEE PES Innovative Smart Grid Technologies Conference Europe, (2010), pp. 1-8
• [4] Jinsoo Han, Haeryong Lee, Kwang-Roh Park, Remotecontrollable and energy-saving room architecture based on ZigBee communication, IEEE Transactions on Consumer Electronics, (2009),Vol. 55, Issues 1, pp. 264-268
• [5] Muljadi E., Butterfield C.P., Pitch-controlled variable-speed wind turbine generation, IEEE Trans. Industry Appl, (2001), vol. 37, pp. 240–246
• [6] Jaradat M., Jarrah M., Jararweh Y., Al-Ayyoub M., Bousselham A. Integration of Renewable Energy in Demand-Side Management for Home appliances, International Renewable and Sustainable Energy Conference (IRSEC). Ouarzazate, (October 2014), pp. 571-576
• [7] Missaoui R., Joumaa H., Ploix S., Bacha S, Managing Energy Smart Homes According to Energy Prices: Analysis of a Building Energy Management System, Original Research Article Energy and Buildings, (2014), 71, pp. 155-167
• [8] Battista H. De, Mantz R.J., Garelli F., Power conditioning for a wind-hydrogen energy system, Journal of Power Sources, (2006), vol. 155, pp. 478-486,
• [9] Rashid Rozeha A., Sarijari Mohd Adib, Mohd Rozaini Abd Rahim, Tan Zun Yung, Flood Transmission based Protocol for Home Automation System via Power Line Communication, Proceedings of the International Conference on Computer and Communication Engineering, (2008)
• [10] M. Navid-Ur-RehmanRao, Zubair Ahmed, Faroqi Adnan, Model of Smart System Based On Smart Grid, Smart Meter and Wireless Based Smart Appliances, IOSR Journal of Electrical and Electronics Engineering, (2012), 1(5), pp. 6-10
• [11] Garner G, Designing Last Mile Communications Infrastructures for Intelligent Utility Networks (Smart Grids), IBM Australia Limited, (2010)
• [12] Kara Saul-Rinaldi, Robin LeBaron and Julie Caracino, Applications of Smart Grid and Smart Home Technologies for the Home Performance Industry, National Home Performance Council, (May 2014), pp. 3-4
• [13] Seyedi H. Sanaye-Pasand M, New centralised adaptive load shedding algorithms to mitigate power system blackouts Generation, Transmission & Distribution, lET, (2009), 3(l), pp. 99-114
• [14] Gungor V. C., Bin Lu, Hancke G. P, Opportunities and Challenges of Wireless Sensor Networks in Smart Grid, IEEE Transactions on Industrial Electronics, (2010), 10, pp. 3557- 3564
• [15] Shahid Bilal, Zubair Ahmed, Faroqi Adnan, Navid-ur- RehmanRao M., Implementation of Smart System Based on Smart Grid Smart Meterand Smart Appliances, International Conference on Smart Grid Systems (ICSGS 2012) IPCSIT, vol.45 © (2012) IACSIT Press, Singaporen
• [16] Moslehi K., Kumar R., A Reliability Perspective of the Smart Grid. Smart Grid, IEEE Transactions on Smart Grid, (2010), l(1), pp. 57-64

Uwagi

Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).