TitleEconomic and environmental analysis of a hybrid solar, wind and pumped storage hydroelectric energy source: a Polish perspective
Journal titleBulletin of the Polish Academy of Sciences: Technical Sciences
Divisions of PASNauki Techniczne
PublisherPolish Academy of Sciences
IdentifierISSN 0239-7528, eISSN 2300-1917
ReferencesEvans (2012), Assessment of utility energy storage options for increased renewable energy penetration Renewable and Sustainable, Energy Reviews, 17, 4141. ; Ma (2014), Feasibility study and economic analysis of pumped hydro storage and battery storage for a renewable energy powered island and, Energy Conversion Management, 387. ; Shukur (null), Daily wind speed forecasting through hybrid model based on, ANN Renewable Energy, 637. ; Jurasz (2016), The Influence of temperature variability on electrical energy demand in Poland in the years in Polish Elektrotechniczny, Electrical Review, 39. ; Kyriakopoulos (2016), Electrical energy storage systems in electricity generation policies innovative technologies and regulatory regimes Renewable and Sustainable, energy Energy Reviews, 49. ; Jurasz (2016), Evaluation of the complementarity of wind energy resources solar radiation and flowing water a case study of Piła, Acta, 21. ; Hoicka (2011), Solar and wind resource complementarity : Advancing options for renewable electricity integration in Ontario, Renewable Energy, 23, 97. ; Kapsali (2012), Wind powered pumped - hydro storage systems for remote islands : a complete sensitivity analysis based on economic perspectives, Applied Energy, 26, 99. ; Kost (2013), Levelized cost of electricity technologies Fraunhofer Institute for Systems, renewable energy Solar Energy. ; Igliński (2016), in current state surveys Act SWOT analysis Renewable and Sustainable, Wind energy History Renewable Energy Sources Energy Reviews. ; Ahmad (null), Hourly global solar irradiation forecasting for New Zealand, Solar Energy, 11, 122. ; Jurasz (2016), Investigating theoretical PV energy generation patterns with their relation to the power load curve in of, International Journal Photoenergy, 37. ; Kapsali (2010), Combining hydro and variable wind power generation by means of pumped - storage under economically viable terms, Applied Energy, 27, 87. ; Katsaprakakis (2016), Hybrid power plants in non - interconnected insular systems, Applied Energy, 164. ; Igliński (null), of biomass in Polish sector an overview Technologies and, Development energy Clean Environmental Policy, 17, 317. ; Miglietta (2016), Local complementarity of wind and solar energy resources over Europe : an assessment study from a meteorological perspective of and, Journal Applied Meteorology Climatology, 12. ; Sundararagavan (2012), Evaluating energy storage technologies for wind power integration, Solar Energy, 2707. ; Li (2009), Wind - solar resource complementarity and its combined correlation with electricity load demand th on and, IEEE Conference Industrial Electronics Applications, 24, 3623. ; Twidell (null), Resources, Renewable Energy, 2015. ; Hedegaard (2012), Wind power impacts and electricity storage A time scale perspective, Renewable Energy, 37, 318. ; Khare (2016), Solar wind hybrid system Renewable and Sustainable, renewable energy review Energy Reviews, 15, 23. ; Green (null), cell efficiency tables Version in photovoltaics research applications, Solar Progress, 23, 1. ; Katsaprakakis (2012), Introduction of a wind powered pumped storage system in the isolated insular power system of Karpathos, Applied Energy, 28, 38. ; Ma (null), Optimal design of an autonomous solar wind - pumped storage power supply system, Applied Energy, 160. ; Flury (2012), Frischknecht Life cycle inventories of hydroelectric power generation Services Fair Consulting in Sustainability commissioned by Oko - Institute eV, null, 1. ; (null), http www gmes atmosphere eu, null. ; Dolan (2012), Life cycle greenhouse gas emissions of utility - scale wind power of, Journal Industrial Ecology, 16, 1. ; Liu (null), Effects of carbon emission regulations on remanufacturing decisions with limited information of demand distribution, International Journal of Production Research, 53. ; Jurasz (2016), Scheduling opearation of wind powered pumped - storage hydroelectricity thInternational Conference on Industrial Logistics, null, 30, 74. ; Schyska (2016), Kies von Bremen The Demand Side Management Potential to Balance a Highly Renewable European Power System Energies, null, 18, 9. ; Jacobson (2011), Providing all global energy with wind water and solar power Part Technologies energy resources quantities and areas of infrastructure and materials, Energy Policy, 19, 1154. ; Jurasz (2017), Integrating photovoltaics into energy systems by using a run - off - river power plant with pondage to smooth energy exchange with the power grid, Applied Energy, 14, 198. ; Steiner (2017), Critical weather situations for renewable energies Part Cyclone detection for wind power, Renewable Energy, 40, 101. ; (null), https gs gmao gsfc nasa gov reanalysis MERRA, null, 6101. ; (2010), http www eea europa eu data and maps figures co electricity g per kwh co per electricity kwh fig qa xls, null, 1. ; Díaz (2012), of energy storage technologies for wind power applications Renewable and Sustainable, review Energy Reviews, 16, 2154. ; Köhler (2017), Critical weather situations for renewable energies Part Low stratus risk for solar power, Renewable Energy, 101. ; Głąb (2016), Perpective of use of sun and wind energy in the chlor - alkali industry Methodical, Science Review, 53. ; (null), http www innogystoenoperator pl web cms pl dladomu, null. ; Silva (2016), Complementarity of hydro offshore wind Renewable and Sustainable, power Energy Reviews, 13, 413. ; Hong (2014), Probabilistic forecasting Global forecasting competition beyond of, energy energy International Journal Forecasting, 32, 896. ; Seinfeld (2016), and From Air pollution to Climate Change, Atmospheric Chemistry Physics. ; Ma (null), Pumped storage - based standalone photovoltaic power generation system : modeling and techno - economic optimization, Applied Energy, 137. ; Delucchi (2011), Providing all global energy with wind water and solar power Part II : Reliability system and transmission costs and policies, Energy policy, 20, 1170. ; (null), http ec europa eu eurostat statisticsexplained index php Energy price, statistics.