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Advances and challenges in the development of redox materials for thermochemical solar fuels production
(2024)Proceedings of MATSUS Fall 2024 Conference (MATSUSFall24)Other Conference Item -
Solar-driven thermochemical production of green ammonia via a Strontium nitride cycle
(2024)Other Conference Item -
Modeling of the Ceria-Based Redox Cycle for Dry Reforming of Methane: Towards Optimized Thermochemical Syngas Production
(2024)Other Conference Item -
Topology Optimization of 3D-Printed Hierarchically Ordered Porous Structures to Maximize Solar Fuel Yield
(2024)We report on the topology optimization of hierarchically ordered structures for CO2 splitting via a redox thermochemical cycle, driven by concentrated solar energy. These structures, made of the redox material ceria, were 3D-printed using a Direct Ink Writing (DIW) technique and were experimentally proven to outperform the state-of-the-art isotropic reticulated porous ceramic (RPC) structures [1]. To maximize their fuel yield, parametrized ...Other Conference Item -
Solar Thermochemical Jet Fuel Production from Air-Captured H2O and CO2 – Reactor Modelling, Upscaling, and Techno-Economic Analysis
(2024)We report on the solar thermochemical fuel production from H2O and CO2 obtained by direct air capture [1]. We present a heat and mass transfer model of the solar reactor. We further present the results of an energy efficiency and techno-economic analysis of an industrial-scale fuel plant [2]. The core of the process is the simultaneous co-splitting of CO2 and H2O via a ceria-based thermochemical redox cycle driven by concentrated solar ...Other Conference Item -
Thermodynamic and Computational Modeling of Thermochemical Syngas Production Via the CeO2-CH4-CO2 Redox Reforming Cycle in a Tubular Reactor
(2023)2023 AIChE Annual Meeting ProceedingsOther Conference Item -
Dynamic Model of a Solar Fuel System for the ThermochemicalProduction of Syngas from H2O and CO2
(2023)2023 AIChE Annual Meeting ProceedingsWe report on a dynamic model of a solar fuel system for the solar thermochemical production of syngas – a specific mixture of CO and H2 − from CO2 and H2O via a ceria-based redox cycle using concentrated solar energy. The system is driven by concentrated solar process heat to effect the simultaneous co-splitting of CO2 and H2O via a ceria-based thermochemical redox cycle. The solar reactor for effecting this redox cycle consists of a ...Other Conference Item -
Design and Optimization of a Solar Reactor for Thermochemical Fuel Production using 3D Printed Ceramic Structures
(2023)Other Conference Item -
Solar Reactor Technology for the Production of Sustainable Aviation Fuels
(2023)Other Conference Item -
Development of an automation software for the control and operation of a solar refinery with redox reactors
(2023)Other Conference Item