02044naa a2200301 a 450000100080000000500110000800800410001902400440006010000160010424501270012026000090024752011850025665000210144165300190146265300150148165300230149665300220151970000190154170000210156070000250158170000200160670000200162670000190164670000140166570000170167970000130169677300330170921448692022-07-21       2022    bl uuuu     u00u1 u    #d7 ahttps://doi.org/10.3390/en151244982DOI1 aHUNT, J. D.  aSedimentary BasinWater and Energy Storageba low environmental impact option for the bananal basin.h[electronic resource]  c2022  aGroundwater storage is an important water management solution that is overlooked by several countries worldwide. This paper evaluates the potential for storing water in the Bananal sedimentary basin and proposes the construction of canals to reduce sediment obstructions in the river flow and harmful flood events. This would allow for better control of the water level. The water stored in the sedimentary basin can be used as a climate change adaptation measure to ensure that the level of the flood plain is maintained high during a drought or low during an intense flood event. Additionally, the flood plain will function as a water reservoir, regulate the river flow downstream from the flood plain, and enhance hydropower generation. A significantly smaller reservoir area is expected to store water, as the water will be stored as groundwater in the sedimentary basin. Results show that the Bananal basin has the potential to store up to 49 km3 of water, which can add up to 11.7 TWh of energy storage to the Brazilian energy matrix for a CAPEX energy storage cost of 0.095 USD/kWh. This is an interesting solution for the Araguaia basin and several other basins worldwide.  aWater management  aEnergy storage  aHydropower  aRenewable energies  aSedimentary basin1 aNASCIMENTO, A.1 aGUZMAN, O. J. R.1 aFURTADO, G. C. de A.1 aCATEN, C. S. T.1 aTOMÉ, F. M. C.1 aLEAL FILHO, W.1 aDURIN, B.1 aLOPES, M. A.1 aWADA, Y.  tEnergies, 15gn. 4498, 2022.