The current study deals with a potential solution for the replacement of fossil fuel based energy resources with a sustainable solar energy resource. Electrical energy demand of a small community is investigated where a floating photovoltaic system and integrated hydrogen production unit are employed. Data are taken from Mumcular Dam located in Aegean Region of Turkey. PvSyst software is used for the simulation purposes. Furthermore, the obtained results are analyzed in the HOMER Pro Software. Photovoltaic (PV) electricity provides the required load and excess electricity to be used in the electrolyzer and to produce hydrogen. Saving lands by preventing their usage in conventional PV farms, saving the water due to reducing evaporation, and compensating the intermittent availability of solar energy are among the obtained results of the study for the considered scenario. Stored hydrogen is used to compensate the electric load through generating electricity by fuel cell. Floating PV (FPV) system decreases the water evaporation of water resources due to 3010 m² shading area. FPV and Hydrogen Systems provides %99.43 of the electricity demand without any grid connection or fossil fuel usage, where 60.30 MWh/year of 211.94 MWh/year produced electricity is consumed by electric load at $0.6124/kWh levelized cost of electricity (LCOE).

当前的研究涉及用可持续的太阳能资源替代基于化石燃料的能源的潜在解决方案。调查了使用浮动光伏系统和集成制氢装置的小社区的电能需求。数据取自位于土耳其爱琴海地区的Mumcular大坝。PvSyst软件用于仿真目的。此外，在HOMER Pro软件中分析获得的结果。光伏（PV）电提供所需的负载和多余的电能，以用于电解槽并产生氢气。通过防止在传统的光伏农场中使用土地来节省土地，由于减少了蒸发而节省了水，对于所考虑的情景，研究的结果包括对太阳能的间歇性补偿和补偿。储存的氢用于通过燃料电池发电来补偿电负载。浮动式PV（FPV）系统可减少3010 m的水资源蒸发量²遮光面积。FPV和氢气系统提供了99.43％的电力需求，而没有任何电网连接或化石燃料的使用，其中60.30 MWh /年的211.94 MWh /年的生产电力被电力负载消耗，电价为0.6124 / kWh的均等电费（LCOE）。