Biorefinery: Biomaterials and Bioenergy from Photosynthesis, within Zero Emission Framework

机译：生物遗料：从光合作用中的生物材料和生物能量，零排放框架内

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Success of up-to-date and efficient technological implementations of biomass conversion becomes particularly important as the deposits of non-renewable resources are being depleted. The products of photosynthesis could be the only available source of chemicals, advanced biomaterials, organic fuels and biopower. Under conditions of severe competition for the carriers of captured solar energy efficient and sustainable consumption of the unique bioresource should be extremely important for the future nonfood products from biotechnological/thermo-chemical biorefineries required to replace the present petrochemical refineries. The main targets are the increase of photosynthesis efficiency and integration of new technologies into clusters of near-Zero Emissions biorefineries. Production of biofuels and ability of using existing infrastructures are significant factors for future biorefineries. Open-system thermodynamics should be applied to strengthen Zero Emissions and Biorefineries concepts.

机译：成功的生物量转换的最新和高效的技术实现变得尤为重要，因为不可再生资源的沉积是耗尽的。光合作用产品可能是唯一可用的化学品，先进的生物材料，有机燃料和生物管源。在捕获太阳能效率高效和可持续消费的载体的严重竞争的条件下，独特的生物能源的可持续消费应该对来自生物技术/热化学生物档案的未来非食物产品非常重要，以取代本石化炼油厂所需的生物技术/热化学生物档案。主要目标是光合作用效率的增加和新技术集成到零零排放的簇中。生物燃料的生产和使用现有基础设施的能力是未来生物档案的重要因素。应施加开放式热力学，以加强零排放和生物食品概念。

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《NATO Advanced Research Workshop on Sustainable Energy Production and Consumption and Environmental Costing》|2008年||共11页
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Janis Gravitis;
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中图分类能源;
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Biorefinery; photosynthesis; bioenergy; zero emissions;

机译：生物术;光合作用;生物能量;零排放;

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Biorefinery: Biomaterials and Bioenergy from Photosynthesis, within Zero Emission Framework

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