International Journal of Renewable Energy Research-IJRER

Due to the pollution of the traditional power generation resources and environmental problems, development of power generation resources has become a major problem in today's world. Because of this reason and economic reasons for fossil fuels, the electricity industry designers and policy-makers are to provide solutions to improve the current situation and to reduce destructive environmental effects. In the meantime, the use of renewable resources such as wind and solar power plants has been a priority of many governments and companies. Because of the uncertainty of the renewable energy resources and their dependence on weather conditions, their influence is along with some problems including the loss of system reliability and reduced power quality. In this regard, demand management and reduced usage in the peak hours and shifting some consumption to low load hours can play a crucial role with respect to the renewable energy influence in the system. The potential demand and load management can play a role in either sides of consumption or generation of the electrical systems in order to reduce costs for consumers and manufacturers. With regard to different behaviors of loads in different sectors over their consumption time, seven different sectors of loads including domestic, industrial, large, commercial, administrative, governmental and agricultural loads are investigated in this paper as load shift and its impact on Well Being and on increasing the system reliability under different scenarios through wind energy. Well Being with sequential Monte Carlo method with/without the fuzzy logic is used for comparison. IEEE-RTS test system is selected to be examined in this study.

Demand side management, Load shifting, wind energy sources, well-being analysis.

References

B.S.Reddy and J.K.Parikh,"Economic and environmental impacts of demand side management programs," Energy policy, vol. 25, no.3, pp.349-356, 1997.

J.Sheen, "Economic profitability analysis of demand side management program," Energy Conversion and management, vol. 46, no. 18-19, pp.2919-2935, Nov.2005.

F.Boshell and O.P.Veloza,"Review of developed demand side management programs including different concepts and their results," in proc. IEEE/PES Transmission and Distribution Conf. Expo.: Latin America, pp. 1-7, 2008.

A.S.Malik, "Modelling and economic analysis of DSM programs in generation planning," Int. J. Elec. power Energy syst., Vol.23, no.5, pp.413-419, Jun. 2001.

Antonio J.Conejo, Juan Morales, Luis Baringo, "Real –Time Demand Response Model" IEEE Trans. On Smart Grid Vol.1, no.3, Dec.2010.

Rongshan Yu, W. Yang and S. Rahadja, "A statistical Demand Price Model with its application in optimal Real time price" IEEE trans. On smart grid vol. 3, no. 4, Dec.2012.

H.Alami, G.R.Yousefi and M.parsa Moghadam "Demand Response Modeling Considering Interruptible/Curtailable Loads and Capacity Market Programs" Applied Energy, 87, pp. 243–250, 2010.

N. Yu, Ji-Lai Yu, "Optimal TOU Decision Consideration Demand Response Model" international conference on power systems and technology,IEEE2006

B.S.Reddy and J.K.Parikh, "Economic and environmental impacts of demand side management programs," Energy policy, vol. 25, no.3, pp.349-356, 1997.

C.W.Gelling , W.Barron, F.M.Betley, W.A.England, L.L.Preiss and D.E. Jones, " Integrating demand-side management in to utility planning," IEEE Trans. on power syst., vol. 1, no.3, pp.81-87, 1986.

J.E.Runnels, "Impacts of demand side management on T and D –now and tomorrow," IEEE Trans. On power syst., vol. 2, no. 3, pp.724-729, 1987

T. S. Yau, W. M. Smith, R. G. Huff , L. J. Vogt and H. L. Willis, "Demand-side Management impact on the transmission and distribution system," IEEE Trans. on power syst., vol. 5, no. 2, pp.506-512, 1990.

D. Hunang, R. Billinton, "Impacts of demand side management on bulk system reliability evaluation considering load forecast uncertainty," IEEE Electrical and Energy Conference, 2011

D. Hunang, Roy Billinton, "Effects of load sector demand side management applications in generating capacity adequacy assessment," IEEE Trans. on power syst., Vol. 27, no. 1, Feb. 2012.

M.V.K. Rao and C.Radhakrishna, "Development of agricultural demand side management project," IEEE Trans. Power syst., vol. 6, no. 4, pp. 1466-1472, Nov. 1991.

Daniel S. Kirschen, Goran Strbac, Pariya Cumperayot, and Dilemar de Paiva Mendes, "Forecasting the elasticity of demand in electricity prices," IEEE Trans. On power syst, vol. 15, no.2, May.2000.

C. Cecati, C. Cito, and P. Siano, “Combined operations of renewable energy systems and responsive demand in a smart grid†IEEE Trans. sust. energy, vol. 2, no. 4, Oct. 2011.

S. H. Madaeni and R. Sioshansi, “Measuring the benefits of delayed price-responsive demand in reducing wind-uncertainty costs“ IEEE Trans. Power Syst., vol. 28, no. 4, pp. 4118-4126, Nov. 2013.

R.Sioshansiand W. Short, “Evaluating the impacts of real-time pricing on the usage of wind generation“ IEEE Trans. Power Syst., Vol. 24, no. 2, pp. 516-524, May 2009.

R. Bilinton, D. Huang, and W. Wangdee, “Effect of demand side management on bulk system adequacy evaluation,†IEEE Conf., PMAPS, 2010.

N. Etherden and M. H. J. Bollen, “Dimensioning of energy storage for increased integration of wind power“IEEE Trans. Sust. Energy, vol. 4, no. 3, pp.546-553, May 2013.

A. Safdarian, M. Fotuhi-Firuzabad and F. Aminifar, “Compromising wind and solar energies from the power system adequacy viewpoint†IEEE Trans. power syst., vol. 27, no. 4, Nov. 2012.

R. Billinton, R. Karki, "Application of Monte Carlo simulation to generating system well-being analysis," IEEE Trans. Power syst., Vol. 14, pp. 1172-1177, Aug. 1999.

W. Wangdee, R. Billinton, " Bulk electric system well-being analysis using sequential Monte-Carlo simulation," IEEE Trans. Power syst., vol.21, no. 1,pp. 188-193, Feb.2006.

IEEE-PS APM Subcommittee, "IEEE reliability test system," IEEE Trans. Power App. Syst., vol.PAS-98, no. 6, pp.2047-2054, 1979

A.Sankarakrishman and R.Billinton, "Sequential Monte Carlo simulation for composite power system reliability analysis with time varying loads," IEEE Trans. Power Syst., vol. 10, no. 3, pp.1540-1545, Aug. 1995.

Amir Abiri-Jahromi, Mahmud Fotuhi-Firozabad and Ehsan Abbasi, "Optimal Scheduling of Spinning Reserve Based on Well-Being Model" IEEE Transaction on power systems, VoL. 22, No. 4, Nov. 2007.

H.Alami, G.R.Yousefi, M.parsa Moghadam, "Demand Response Modeling Considering Interruptible/Curtail able Loads and Capacity Market Programs" Applied Energy,no. 87, 243–250, 2010.