Search Results - "Ushak, S."

Development of low-cost inorganic salt hydrate as a thermochemical energy storage material by Mamani, V., Gutiérrez, A., Ushak, S.

“…Thermochemical storage is based on a reversible chemical reaction; energy can be stored when an endothermic chemical reaction occurs and then, energy is…”
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Advances in the development of latent heat storage materials based on inorganic lithium salts by Milian, Y.E., Ushak, S., Cabeza, L.F., Grageda, M.

“…Recently, inorganic thermal energy (TES) storage materials to support renewable energy implementation are being developed, and lithium salts have been showing…”
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Development of new molten salts with LiNO3 and Ca(NO3)2 for energy storage in CSP plants by Fernández, A.G., Ushak, S., Galleguillos, H., Pérez, F.J.

“…•The joint study of the two additives, LiNO3 and Ca(NO3)2, present a working range between 132 and 571°C.•The synergistic effect between both additives shows a…”
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Lithium compounds for thermochemical energy storage: A state-of-the-art review and future trends by Marín, P.E., Milian, Y., Ushak, S., Cabeza, L.F., Grágeda, M., Shire, G.S.F.

“…The world is currently going through significant changes in technology, and alongside these advances, new developments of strategies to store and supply energy…”
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Review and multi-criteria assessment of solar energy projects in Chile by Grágeda, M., Escudero, M., Alavia, W., Ushak, S., Fthenakis, V.

“…Chile needs to increase its installed electric capacity to support economic growth. Currently, the total demand is 67,564GWh and an additional 22,508GWh will…”
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Thermal characterisation of an innovative quaternary molten nitrate mixture for energy storage in CSP plants by Fernández, A.G., Ushak, S., Galleguillos, H., Pérez, F.J.

“…Enhancements to energy storage systems developed for solar thermoelectric technologies can yield considerable increases in efficiency for this type of…”
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Phosphonate based hybrid organic/inorganic open network compounds [Cu(bipy)(VO2)2(O3PCH2PO3)H2O] and [Cu(bipy)(VO2)(O3P(CH2)2PO2OH)] · 1.5H2O by USHAK, S, SPODINE, E, VENEGAS-YAZIGI, D, LE FUR, E, PIVAN, J. Y

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Industrial carnallite-waste for thermochemical energy storage application by Mamani, V., Gutiérrez, A., Fernández, A.I., Ushak, S.

“…•The reuse of potassium carnallite-waste for thermochemical heat storage was studied.•Carnallite-waste compared to the synthetic material showed a low cyclic…”
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Novel examples of hybrid organic–inorganic solids based on building blocks by Le Fur, E., Pivan, J.Y., Ushak, S., Venegas-Yazigi, D., Spodine, E.

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Novel examples of hybrid organic–inorganic solids based on V 4 O 12 4 - building blocks by Le Fur, E., Pivan, J.Y., Ushak, S., Venegas-Yazigi, D., Spodine, E.

“…New hybrid organic/inorganic copper oxovanadium [Cu(dpa) 2] 4V 4O 12, Cu 2(bipy) 2V 4O 12, Cu 2(bipy) 2V 6O 17 were obtained by soft hydrothermal routes. The…”
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Phosphonate based hybrid organic/inorganic open network compounds [Cu(bipy)(VO 2) 2(O 3PCH 2PO 3)H 2O] and [Cu(bipy)(VO 2)(O 3P(CH 2) 2PO 2OH)] · 1.5H 2O by Ushak, S., Spodine, E., Venegas-Yazigi, D., Le Fur, E., Pivan, J.Y.

“…The hybrid organic/inorganic copper oxovanadium diphosphonates of formula [Cu(bipy)(VO 2) 2(O 3PCH 2PO 3)H 2O] 1, which crystallizes in the orthorhombic…”
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Magnetic properties of hybrid organo-inorganic copper(II) oxovanadate(V) phosphate and phosphonate bridged systems by Spodine, E., Venegas-Yazigi, D., Ushak, S., Paredes-García, V., Saldias, M., Le Fur, E., Pivan, J.Y.

“…The hybrid organo-inorganic compounds [Cu 4(bipy) 4V 4O 11(PO 4) 2] nH 2O(n ∼ 5) ( 1), [Cu 2(phen) 2(PO 4)(H 2PO 4) 2(VO 2) · 2H 2O] ( 2) and [Cu 2(phen) 2(O…”
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Hybrid organo-inorganic materials of the VPO system by Spodine, E., Ushak, S., Pivan, J.-Y., Le Fur, E., Peña, O.

“…Abstract only…”
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