Search Results - "Lanchi, M."
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Environmental Impacts of a Solar Dish Coupled With a Micro-Gas Turbine for Power Generation
Published in Frontiers in energy research (23-11-2021)“…Concentrated solar power (CSP) systems are regarded as a renewable energy source technology that can contribute to decoupling the energy mix from fossil fuel…”
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Hydrogen/methanol production by sulfur–iodine thermochemical cycle powered by combined solar/fossil energy
Published in International journal of hydrogen energy (01-03-2007)“…Hydrogen production from water using the sulfur–iodine (S–I) thermochemical cycle, powered by combined solar and fossil heat sources, has been investigated…”
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Decomposition of hydrogen iodide in the S–I thermochemical cycle over Ni catalyst systems
Published in International journal of hydrogen energy (01-05-2009)“…The sulphur–iodine thermochemical cycle for hydrogen production has been investigated by ENEA (Agency of New Technologies, Energy and Environment, Italy) over…”
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S-I thermochemical cycle : A thermodynamic analysis of the HI-H2O-I2 system and design of the HIx decomposition section
Published in International journal of hydrogen energy (01-03-2009)Get full text
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Use of metallic Ni for H2 production in S-I thermochemical cycle : Experimental and theoretical analysis
Published in International journal of hydrogen energy (01-02-2009)Get full text
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Cu–Zn–Al based catalysts for low temperature bioethanol steam reforming by solar energy
Published in International journal of hydrogen energy (01-07-2010)“…Bioethanol steam reforming is one of the most promising route to produce hydrogen from a renewable liquid biofuel. Activity of two Cu–Zn–Al based catalysts was…”
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Fluidized bed reactor sizing using manganese aluminium spinel for thermochemical storage
Published in Journal of energy storage (01-02-2024)“…In the field of high-temperature thermal energy storage, the use of reacting systems that reversibly decompose and regenerate, absorbing and releasing heat on…”
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Thermochemical heat storage through CaO-Mayenite/CaCO3 system: Thermal performances comparison for two synthesis methods
Published in Journal of energy storage (20-11-2023)“…ThermoChemical Storage systems (TCS) are gaining attention for long term-thermal energy storage applications. Those systems can successfully increase the…”
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Thermal characterization of a cavity receiver for hydrogen production by thermochemical cycles operating at moderate temperatures
Published in Solar energy (01-06-2013)“…•A cavity receiver has been realized for powering the ENEA mixed ferrites cycle.•Thanks to the moderate operating T the receiver is made of conventional…”
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Use of metallic Ni for H 2 production in S–I thermochemical cycle: Experimental and theoretical analysis
Published in International journal of hydrogen energy (01-02-2009)“…The gaseous hydrogen iodide decomposition is a thermodynamically limited reaction and subsequently a considerable energy expense for the separation and…”
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Experimental vapour–liquid equilibrium data of HI–H 2O–I 2 mixtures for hydrogen production by Sulphur–Iodine thermochemical cycle
Published in International journal of hydrogen energy (2008)“…The Sulphur–Iodine thermochemical cycle for hydrogen production has been investigated by ENEA in the framework of the Italian TEPSI Project whose main…”
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HI extraction by H sub(3PO) sub(4) in the Sulfur-Iodine thermochemical water splitting cycle: Composition optimization of the HI/H sub(2O/H) sub(3)PO sub(4/I) sub(2) biphasic quaternary system
Published in International journal of hydrogen energy (01-08-2009)“…Iodine excess separation from hydriodic acid (HI) is one of the most challenging steps of the Sulfur-Iodine thermochemical water splitting cycle. One promising…”
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S-I thermochemical cycle: A thermodynamic analysis of the HI-H sub(2O-I) sub(2) system and design of the HI sub(x decomposition section)
Published in International journal of hydrogen energy (01-03-2009)“…It is widely agreed that the most energy consuming part of the Sulphur-Iodine (S-I) thermochemical cycle for hydrogen production is represented by separation…”
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Use of metallic Ni for H sub(2 production in S-I thermochemical cycle: Experimental and theoretical analysis)
Published in International journal of hydrogen energy (01-02-2009)“…The gaseous hydrogen iodide decomposition is a thermodynamically limited reaction and subsequently a considerable energy expense for the separation and…”
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Journal Article -
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S–I thermochemical cycle: A thermodynamic analysis of the HI–H 2O–I 2 system and design of the HI x decomposition section
Published in International journal of hydrogen energy (2009)“…It is widely agreed that the most energy consuming part of the Sulphur–Iodine (S–I) thermochemical cycle for hydrogen production is represented by separation…”
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HI extraction by H 3PO 4 in the Sulfur–Iodine thermochemical water splitting cycle: Composition optimization of the HI/H 2O/H 3PO 4/I 2 biphasic quaternary system
Published in International journal of hydrogen energy (2009)“…Iodine excess separation from hydriodic acid (HI) is one of the most challenging steps of the Sulfur–Iodine thermochemical water splitting cycle. One promising…”
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