[1] Gupta, S.K., and Purohit, P., “Renewable Energy Certificate Mechanism in India: A Preliminary Assessment”, Renewable and Sustainable Energy Reviews, Vol. 22, pp. 380-392, (2013).
[2] Tian, Z., and Seifi, A.A., “Reliability Analysis of Hybrid Energy System”, International Journal of Reliability, Quality and Safety Engineering, Vol. 21(03), Article Number. 1450011, (2014).
[3] Olatomiwa, L., Mekhilef, S., Ismail, M.S., and Moghavvemi, M., “Energy Management Strategies in Hybrid Renewable Energy Systems: A Review”, Renewable and Sustainable Energy Reviews, Vol. 62, pp. 821-835, (2016).
[4] Azuatalam, D., Paridari, K., Ma, Y., Förstl, M., Chapman, A.C., and Verbič, G., “Energy Management of Small-scale PV-battery Systems: A Systematic Review Considering Practical Implementation, Computational Requirements, Quality of Input Data and Battery Degradation”, Renewable and Sustainable Energy Reviews, Vol. 112, pp. 555-570, (2019).
[5] Kadri, A., Marzougui, H., Aouiti, A., and Bacha, F., “Energy Management and Control Strategy for a DFIG Wind Turbine/Fuel Cell Hybrid System with Super Capacitor Storage System”, Energy, Vol. 192, Article Number. 116518, (2020).
[6] Sun, C., Sun, F., and Moura, S.J., “Data Enabled Predictive Energy Mّmanagement of a PV Battery Smart Home Nanogrid”, American Control Conference (ACC), IEEE, Chicago, USA, pp. 1023-1028. (2015).
[7] Dursun, E., and Kilic, O., “Comparative Evaluation ofّ Different Power Management Strategies of a Stand-alone PV/Wind/PEMFC Hybrid Power System”, International Journal of Electrical Power and Energy Systems, Vol. 34(1), pp. 81-89, (2012).
[8] Castañeda, M., Cano, A., Jurado, F., Sánchez, H., and Fernández, L.M., “Sizing Optimization, Dynamic Modeling and Energy Management Strategies of a Stand-alone PV/Hydrogen/Battery-based Hybrid System”, International Journal of Hydrogen Energy, Vol. 38(10), pp. 3830-3845, (2013).
[9] Askarzadeh, A., “A Memory-based Genetic Algorithm for Optimization of Power Generation in a Microgrid”, IEEE Transactions on Sustainable Energy, Vol. 9(3), pp.1081-1089, (2018).
[10] Qi, W., Liu, J., Chen, X., and Christofides, P.D., “Supervisory Predictive Control of Standalone Wind/Solar Energy Generation Systems”, Control Systems Technology, IEEE Transactions on Control Systems Technology, Vol. 19(1), pp. 199-207, (2011).
[11] Yahyaoui, I., Yahyaoui, A., Chaabene, M., and Tadeo, F., “Energy Management for a Stand-alone Photovoltaic-wind System Suitable for Rural Electrification”, Sustainable Cities and Society, Vol. 25, pp. 90-101, (2016).
[12] Kim, S., and Lim, H., “Reinforcement Learning Based Energy Management Algorithm for Smart Energy Buildings”, Energies,
doi.org/10.3390/en11082010, Vol. 11(8), (2018).
[13] Leo, R., Milton, R.S., and Sibi, S., “Reinforcement Learning for Optimal Energy Management of a Solar Microgrid”, Global Humanitarian Technology Conference- South Asia Satellite (GHTC-SAS), IEEE, Trivandrum, India, pp. 183-188, (2014).
[14] Dalamagkidis, K., Kolokotsa, D., Kalaitzakis, K., and Stavrakakis, G.S., “Reinforcement Learning for Energy Conservation and Comfort in Buildings”, Building and Environment, Vol. 42(7), pp. 2686-2698, (2007).
[15] Saloux, E., Teyssedou, A., and Sorin, M., “Explicit Model of Photovoltaic Panels to Determine Voltages and Currents at the Maximum Power Point”, Solar Energy, Vol. 85(5), pp. 713-722, (2011).
[16] Luque, A., and Hegedus, S., (Eds.), “Handbook of Photovoltaic Science and Engineering”, 2nd Edition, John Wiley and Sons, West Sussex, England, United Kingdom, (2011).
[17] Fesharaki, V.J., Dehghani, M., Fesharaki, J.J., and Tavasoli, H., “The Effect of Temperature on Photovoltaic Cell Efficiency”, In Proceedings of the 1st International Conference on Emerging Trends in Energy Conservation–ETEC, Tehran, Iran, pp. 20-21, (2011).
[18] Manwell, J.F., McGowan, J.G., and Rogers, A.L., “Wind Energy Explained: Theory, Design and Application”, 2nd Edition, John Wiley and Sons, West Sussex, England, United Kingdom (2010).
[19] Chang, T.P., Liu, F.J., Ko, H.H., Cheng, S.P., Sun, L.C., and Kuo, S.C., “Comparative Analysis on Power Curve Models of Wind Turbine Generator in Estimating Capacity Factor”, Energy, Vol. 73, pp. 88-95, (2014).
[20] Approximate Natural Gas Generator Fuel Consumption Chart | Diesel Service. (2017), Dieselserviceandsupply.com, Retrieved 12 January 2017, from http://www.dieselserviceandsupply.com/Natural_Gas_Fuel_Consumption.aspx.
[21] Barley, C.D., and Winn, C.B., “Optimal Dispatch Strategy in Remote Hybrid Power Systems”, Solar Energy, Vol. 58(4-6), pp. 165-179, (1996).
[22] Aghaei, J., and Alizadeh, M. I., “Multi-objective Self-scheduling of CHP (Combined Heat and Power)-based Microgrids Considering Demand Response Programs and ESSs (Energy Storage Systems)”, Energy, Vol. 55, pp. 1044-1054, (2013).
[23] Sutton, R.S., and Barto, A.G., “Introduction to Reinforcement Learning”, Cambridge: MIT Press, Massachusetts, London, England, Vol. 135, (1998).
[24] Meteonorm, (2022), Meteonorm.com. Retrieved 23 December 2022, from http://meteonorm.com/.
[25] Ministry of Energy, Renewable Energy and Energy Efficiency Organization (SATBA), (2022), Satba.gov.ir, Retrieved 23 December 2022, from https://www.satba.gov.ir/en/news/1098/Renewable-Energy-Reports2017.
[26] Multicrystalline Solar Panels | Yingli Solar, (2016), Yinglisolar.co, Retrieved 20 September 2016, from
http://www.yinglisolar.com/.
[27] Jiangsu NaiEr Wind Power Technology Development Co., Ltd. (2016), Wxnaier.com, Retrieved 22 August 2016, from http://www.wxnaier.com.
[29] KOHLER Generators, (2017), Retrieved 22 December 2017, from https://kohlerpower.com/en/residential/generators.
[31] Hendron, R., Anderson, R., Christensen, C., Eastment, M., and Reeves, P., “Development of an Energy Savings Benchmark for All Residential End-uses”, Proceedings of SIMBUILD, August 4-6, Boulder, Colorado, (2004).
[33] Modern Afrough Company, (2017), Modernafrough.pcn.ir, Retrieved 11 July 2017, from http://www.modernafrough.pcn.ir.
[36] Zambolin, E., and Del Col, D., “An Improved Procedure for the Experimental Characterization of Optical Efficiency in Evacuated Tube Solar Collectors”, Renewable Energy, Vol. 43, pp. 37-46, (2012).
[37] Jiangsu NaiEr Wind Power Technology Development Co., Ltd., (2016), Wxnaier.com, Retrieved 22 August 2016, from http://www.wxnaier.com.
[38] HOPPECKE - Power from Innovation: HOPPECKE, (2018), Hoppecke.com, Retrieved 3 August 2018, from
http://www.hoppecke.com.
[39] HOMER - Hybrid Renewable and Distributed Generation System Design Software, (2019), Retrieved 6 March 2019, from
https://www.homerenergy.com.
)
