The potential of water infrastructure to accommodate solar PV systems in Mediterranean islands

Electricity production in Mediterranean islands currently depends heavily on imported fossil fuels. This strategy has several disadvantages and has been accused of hindering the islands' sustainable development. In the present research an integrated approach to increase solar photovoltaic (PV) systems' (SPVS) share in the energy mix of Mediterranean islands is presented, through installations on the available surface near existing water infrastructure. Accordingly, we have analyzed the potential of existing dams to accommodate SPVS on their downstream face as well as the option of SPVS over irrigation canals. We processed databases of water infrastructure in five big islands and developed a methodology to identify favorable locations. Using geographic information system (GIS) we processed the technical characteristics of each location and calculated the potential power capacity and the corresponding electricity production. Eleven dams were identified as "first-rate" locations with a total generating capacity of 63 MWp, producing 97 GW h of electricity annually, while additional 10 dams with less optimal conditions would add 30 MW of capacity and 33 GW h of annual production. We also identified an additional advantage of placing SPVS over irrigation canals, proposing additional 60 MWp capacity, namely the significant water savings through reduced evaporation. (C) 2016 The Authors. Published by Elsevier Ltd.