Sustainable energy system combined biogas-feed-Solid Oxide Fuel Cell and Microalgae technology

机译：结合沼气-固体氧化物燃料电池和微藻技术的可持续能源系统

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In the new frontier of energy and environmental safety, new efficient and clean safe energy conversion systems are required. In this sense, the present work is framed within the context of Circular Economy and proposes a multidisciplinary study for the development of more efficient, economically viable and non-polluting energy conversion systems, based on the synergetic combination of different technologies: fuel cells, biofuels, CO2 capture, and the use of solar energy and microalgae. In a first step, a doped cerium oxide (Rh/Cu-CeCa) was evaluated as SOFC anode at 1023 K and using H2 and biogas from different sources (algal biogas and landfill biogas) as fuel. Achieved maximum power density for the single cell running on algal biogas was 80 % higher than that obtained with landfill biogas. The comparative study shows the benefits of algal biogas as fuel for SOFC and clean energy production.

机译：在能源和环境安全的新领域，需要新的高效和清洁安全的能源转换系统。从这个意义上讲，当前的工作是在循环经济的背景下进行的，并基于燃料电池，生物燃料等不同技术的协同组合，提出了一项多学科研究，以开发更高效，经济上可行且无污染的能源转换系统。，一氧化碳 2 捕获，以及太阳能和微藻的利用。第一步，将掺杂的氧化铈（Rh / Cu-CeCa）在1023 K并使用H作为SOFC阳极进行评估 2 以及来自不同来源的沼气（藻类沼气和垃圾填埋沼气）作为燃料。在藻类沼气上运行的单个电池所达到的最大功率密度比垃圾填埋沼气获得的最大功率密度高80％。比较研究表明藻类沼气作为SOFC和清洁能源生产的燃料的好处。

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《International Conference on Smart and Sustainable Technologies》|2020年|1-4|共4页
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Araceli Fuerte; Rita Ximena Valenzuela; Paloma Ferreira-Aparicio; Beata Bochentyn;
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sustainable energy; carbon neutrality; microalgae biogas; solid oxide fuel cell; impurity-tolerant anodes;

机译：可持续能源;碳中和;微藻沼气;固体氧化物燃料电池;耐杂质阳极;

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2. Solid Oxide Fuel Cells and Electrolyzers: Key Enabling Technologies for Sustainable Energy - (EFCF2014) [J] . Christiansen Niels, Hagen Anke, Bele Petra, Fuel cells . 2015,第5期

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机译：固体氧化物燃料电池使用可持续和高效的能源供应使用可再生燃料的冷却热量和动力。192

Sustainable energy system combined biogas-feed-Solid Oxide Fuel Cell and Microalgae technology

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