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World’s first solar jet fuel plant inaugurated by Synhelion – Dawn. Press Release: Jülich, Germany, June 20, 2024 Today Synhelion inaugurated the world’s first industrial-scale plant to produce synthetic fuels using solar heat in Jülich. By inaugurating DAWN, Synhelion proves that the technology to produce solar fuels is ready for large scaling. The renewable fuels …
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Abstract Corrosion and dissolution of containment alloy constituents is an important consideration in high temperature thermal energy storage using molten salts. While the focus of most studies has been on protecting the alloys from corrosion attack, an often-neglected aspect is the dissolution of alloy materials into the molten salt which leads to fouling and possible …
After the solar heat trap experiment measuring the temperature increase to 1050°C at the back of the solar receiver inside a solid block of quartz, even at the front, the temperature measured 450°C IMAGE©Solar thermal trapping at 1,000C and above. Solar receiver efficiency in concentrated solar thermal (CST) energy is determined by how much solar …
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Press Release: Pilatus and Synhelion are about to launch a strategic cooperation aimed at accelerating the scaling of solar fuels for the aviation industry. Pilatus intends to use Synhelion’s solar fuels for its own operations and also offer them to its own customers in the medium-term. With that in mind, Pilatus has become a shareholder …
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Project description Third-cycle subject: Energy and Environmental Systems, Energy Technology To achieve rapid decarbonization of the industrial sector, technically efficient and cost-effective hybrid solutions integrating renewable energy technologies, heat electrification and/or upgrading systems, energy storage and power units are deemed. We aim to design, and prototype different technologies, including high temperature thermal energy storage, heat …
Abstract The incredible potential of metal oxide-based two-step solar-driven thermochemical water splitting technology lies in its ability to harness limitless solar energy to produce clean and renewable hydrogen fuel. However, achieving high redox kinetics and lowering the reaction temperature remain the primary challenges in hydrogen production. The CeO2–ZrO2 system is a well-known oxygen carrier for …
Abstract: Converting clean solar energy into thermal and electrical energy can effectively alleviate energy shortages and environmental crises. However, the intermittency and low utilization of solar energy are currently urgent issues that need to be addressed. The combination of solar-thermal conversion, heat energy storage, and heat energy utilization has been exploited as an emerging methodology …
SolStor Energy will combine CSP+TES – delivering solar at night, complementing PV in the new 100% renewable grid A team of industry experts have joined together to form SolStor Energy, a new US development company to deploy concentrating solar power (CSP) with thermal energy storage (TES) to supply energy from the sun at night. SolStor …
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Thermochemical Oxygen Pumping with Perovskite Reticulated Porous Ceramics for Enhanced Reduction of Ceria in Thermochemical Fuel Production Abstract: Within this work, reticulated monolithic foams and granules made from CaMnO3 − δ and strontium substituted variations are demonstrated to significantly improve the performance of a water splitting redox oxide when employed as a thermochemical oxygen pumping material. …
Hiring 🚀 Do you want to contribute to a renewable energy supply? Then the DLR Institute of Solar Research is the right place for you! Our institute researches the utilisation of solar energy with the aim of further reducing CO₂ emissions. In addition to CO₂-free electricity generation, the provision of sustainable process heat in energy-intensive …