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Advancing towards zero emissions: Integrating floating photovoltaic systems in hydroelectric power plant reservoirs

J. Jazmin Gonzalez-Gonzalez, J. Pablo Arenas-López, Mohamed Badaoui

2024Results in Engineering12 citationsDOIOpen Access PDF

Abstract

One technological alternative to diversifying the energy matrix and reducing reliance on conventional sources involves integrating floating photovoltaics into hydropower plants. To improve the efficiency and sustainability of electricity production, this combination harnesses the benefits of solar and hydropower, thus contributing to climate change mitigation. This study proposes an assessment of the floating photovoltaics resource in water bodies associated with the 14 most important hydropower plants in Mexico. Using ERA5 reanalysis data and the assumption of a 10% coverage of the area of the water bodies, parameters such as annual energy production, avoided greenhouse gases and water savings were estimated. This was done considering two scenarios of floating photovoltaics power density, a pessimistic 30 W/m 2 and an optimistic 125 W/m 2 . Under the conditions proposed in this work, the results of the optimistic Scenario indicate that an annual energy production of 33.12 TWh could be achieved, avoiding the emission of 14.51 MtCO 2 e of greenhouse gases and the evaporation of 336.78 hm 3 of water. • Floating photovoltaic potential on 14 major hydropower reservoirs in Mexico. • Two scenarios of photovoltaic power potential density, 30 and 125 Wp/m 2 , are assumed. • In the optimistic scenario, Mexico could meet 9.93% of its electricity demand. • Estimated water savings could generate an additional 66.02 GWh of hydropower.

Topics & Concepts

HydroelectricityPhotovoltaic systemZero emissionEnvironmental scienceZero (linguistics)Environmental engineeringEngineeringElectrical engineeringLinguisticsPhilosophyReservoir Engineering and Simulation MethodsEnhanced Oil Recovery TechniquesWater-Energy-Food Nexus Studies