Energy Management and Smart Grids for Energy Productivity
International Journal of Economics, Finance and Management Sciences
Volume 3, Issue 5-1, September 2015, Pages: 7-12
Received: Apr. 8, 2015; Accepted: Apr. 9, 2015; Published: Apr. 17, 2015
Views 5671      Downloads 271
Author
Musa Yılmaz, Department of Electronics and Communications Engineering, Technology Faculty, Batman University, Batman, Turkey
Article Tools
Follow on us
Abstract
The first stage to ensure effective energy efficiency is basically to use energy wisely. It is difficult to provide this, for all subscribers, in a network where everyone consumes energy. Therefore, it is necessary to manage this situation. All over the world, the smart grids appear to be the prominent management system about such situations. Effective management of the energy flow can be assured by monitoring and controlling the energy consumption and production plants. One of the most discussed topics in the research is energy efficiency which forms the basis for smart grids. Consumers, production centers and electrical devices in smart grids communicate with each other, and in this way power system can be operated in a more efficient way. Thus, it becomes possible that consumption values can be adapted very successfully to energy production available. In the system established, not only consumer's energy needs is reduced to lower degrees, but also it is ensured that all energy sources (renewable and power plants) are optimized. Consequently, this study provides suggestions to use energy effectively and to manage energy production and consumption by using smart grids in Turkey.
Keywords
Energy Management, Smart Grid Management, Electric Productivity
To cite this article
Musa Yılmaz, Energy Management and Smart Grids for Energy Productivity, International Journal of Economics, Finance and Management Sciences. Special Issue: Energy and Manufacturing Process Management. Vol. 3, No. 5-1, 2015, pp. 7-12. doi: 10.11648/j.ijefm.s.2015030501.12
References
[1]
Elma O., Selamoğulları U.S., Uzunoğlu M., Türkiye'de Akıllı Şebekeler Alt Yapısına Uygun Akıllı Ev Laboratuvarı, Proceeding book, ICSG 8-9 Mayıs 2014 İstanbul.
[2]
Akanca, M.A. and Taşkın, S., Akıllı Şebeke Uygulanabilirliği Açısından Türkiye Elektrik Enerji Sisteminin İncelenmesi, Elektrik Mühendisleri Odası Dergisi, 2011.
[3]
Massoud Amin S., "Toward A Smart Grid: Power Delivery For The 21st Century", Wollenberg B.F., IEEE Power and Energy Magazine, 2005
[4]
[Online]
[5]
J. Medina, N. Muller, I. Roytelman, "Demand Response and Distribution Grid Operations: Opportunities and Challenges", IEEE Transactions on Smart Grid, 1(2) (2010)193-198.
[6]
J. Aghaei, M. I. Alizadeh, "Demand response in smart electricity grids equipped with renewable energy sources: A review", Renewable and Sustainable Energy Reviews, 18(2013)64-72.
[7]
P. Palensky, D. Dietrich, "Demand Side Management: Demand Response, Intelligent Energy Systems, and Smart Loads", IEEE Transactions on Industrial Informatics, 7(3) (2011) 381-388.
[8]
Mrazovac B. , Bjelica M.Z. , Teslic N. ve Papp I. ''Towards ubiquitous smart outlets for safety and energetic efficiency of home electric appliances'',Consumer Electronics - Berlin (ICCE-Berlin), IEEE International Conference,(2011).
[9]
Mengi, O.Ö., Yenilenebilir Enerji Sistemlerinde Süreklilik İçin Akıllı Bir Enerji Yönetim Sistemi, Karadeniz Teknik Üniversitesi Fen Bilimleri Enstitüsü, Doktora Tezi, (2011).
[10]
Shengtie, W. and Zhiyuan, Q., Coordination Control of Energy Management for Stand-Alone Wind/PV Hybrid Systems, 4th IEEE Conference on Industrial Electronics an Applications, May 2009, Xi'an, 3240-3244.
[11]
Harrington, S. and Dunlop, J., Battery Charge Controller Characteristics in Photovoltaic Systems, 7th Annual Battery Conference on Applications and Advances, January 1992, California, USA, 15-21.
[12]
Calderaro, V., Galdi, V., Piccolo, A. and Siano, P., A Fuzzy Controller for Maximum Energy Extraction from Variable Speed Wind Power Generation Systems, Electric Power Systems Research, 78,6 (2008) 1109-1118.
[13]
Ahmed, N., A., Miyatake, M. and Al-Othman, A., K., Power Fluctuations Suppression of Stand-Alone Hybrid Generation Combining Solar Photovoltaic Wind Turbine and Fuel Cell Systems, Energy Conversion and Management, 49,10 (2008) 2711-2719.
[14]
Chen, Y., M., Liu, Y., C., Hung, S., C. and Cheng, C., S., Multi-Input Inverter for Grid-Connected Hybrid PV/Wind Power System, IEEE Transactions on Power Electronics, 22,3 (2006) 1070-1077.
[15]
Hong, Y., Y., Lu, S., D. and Chiou, C., S., MPPT for PM wind generator using gradient approximation, Energy Conversion and Management, 50,1 (2009) 82¬89.
[16]
Khan, M., J. and Iqbal, M., T., Analysis of a Small Wind-Hydrogen Stand-Alone Hybrid Energy System, Applied Energy, 86,11 (2009) 2429-2442.
[17]
El-Shatter, T., F., Eskander, M., N. and El-Hagry, M., T., Energy Flow and Management of a Hybrid Wind/PV/Fuel Cell Generation System, Energy Conversation and Management, 47,9-10 (2006) 1264-1280.
[18]
Hocaoğlu, F., O. and Kurban, M., A Preliminary Detailed Study on Constructed Hybrid (Wind-Photovoltaic) System Under Climatically Conditions of Eskisehir Region in Turkey, First International Power and Energy Coference, November 2006, Putrajaya, Malaysia, 40-43.
[19]
[19] Barsoum, N., N. and Vacent, P., Balancing Cost, Operation and Performance in Integrated Hydrogen Hybrid Energy System, First Asia International Conference on Modelling & Simulation, March 2007, Phuket, 14-18.
[20]
Ammar, B., M., Chaabene, M. and Elhajjaji, A., Daily Energy Planning of a Household Photovoltaic Panel, Applied Energy, 87,7 (2010) 2340-2351.
[21]
Mandal, P., Senjyu, T. and Funabashi, T., Neural Networks Approach to Forecast Several Hour Ahead Electricity Prices and Loads in Deregulated Market, Energy Conversion and Management, 47,15 (2006) 2128-2142.
[22]
Jain, A., and Satish, B., Short Term Load Forecasting by Clustering Technique Based on Daily Average and Peak Loads, IEEE Power & Energy Society General Meeting, July 2009, Calgary, AB, 1-7.
[23]
Liu, W. and H., E., Analytics and Information Integration for Smart Grid Applications, IEEE Power and Energy Society General Meeting, July 2010, Minneapolis, MN, 1-3.
[24]
Sasse, C., Electricity Networks of the Future, IEEE Power Engineering Society General Meeting, Montreal, Que, June 2006, 1-7.
[25]
Li, G., Chen, Y. and Li, T., The Realization of Control Subsystem in the Energy Management of Wind/Solar Hybrid Power System, 3rd International Conference on Power Electronics Systems and Applications, May 2009, Hong Kong, 1-4.
ADDRESS
Science Publishing Group
1 Rockefeller Plaza,
10th and 11th Floors,
New York, NY 10020
U.S.A.
Tel: (001)347-983-5186