微藻捕集减碳光生物反应器的设计与评价

Q4 Agricultural and Biological Sciences
S. Adhithya, Jason Earl Thomas, V. Aravinthkumar
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引用次数: 0

摘要

二氧化碳是造成全球变暖危机的主要因素。在现有的各种碳捕集技术中,基于微藻的生物碳捕集技术是一种很有前途的节能技术。微藻在碳减排和生物能源生产之间的桥梁作用日益受到关注。它的生物质被认为是化石燃料的二氧化碳中性替代品,因为大气中的二氧化碳净转移到生物质中。本研究介绍了绿藻中Scenedesmus物种的二氧化碳同化和随后的生物量产生的评估。实验装置包括使用光生物反应器提供1%的CO2与不输出CO2的柱相比较。结果显示,与不添加二氧化碳相比,微藻在二氧化碳浓度升高(1%)时生长显著。这里制定的战略可能是碳密集型工业实现碳缓解和封存的合适替代方案。此外,我们观察到在富碳环境中生长的Scenedesmus的蛋白质合成量更高,浓度为164.34 μg/mL。这些蛋白质也可以收获,以制定蛋白质丰富的营养保健品。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Design and Evaluation of a Photobioreactor for Carbo Capture and Mitigation Using Microalgae
CO2 is the main contributor to the global warming crisis. Among various existing carbon-capture technologies, microalgae based biological carbon-capture is a promising and energy efficient technology. Microalgae are gaining attention for bridging carbon mitigation and bioenergy production. Its biomass is considered as a CO2-neutral substitute for fossil fuel resulting from the net transfer of atmospheric CO2 into biomass. This study presents an assessment of carbon dioxide assimilation and subsequent biomass generation in Scenedesmus species of green algae. The experimental setup includes a 1% supply of CO2 using a photobioreactor compared with a column with no CO2 output. Results revealed significant growth of microalgae at elevated CO2 (1%) compared to zero CO2 supplementation. The strategy developed here could be a suitable alternative in a carbon intensive industry towards carbon mitigation and sequestration. Additionally, we observed a higher synthesis of protein in Scenedesmus grown in an enriched carbon environment, with a concentration of 164.34 μg/mL. These proteins can also be harvested to formulate a protein enriched nutraceutical.
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来源期刊
International Journal on Algae
International Journal on Algae Agricultural and Biological Sciences-Plant Science
CiteScore
0.40
自引率
0.00%
发文量
17
期刊介绍: The algae are heterogeneous assemblage of phytosynthetic organisms, one of the most vast and diverse groups of ancient photoautotrophic pro- and eukaryotic organisms (about 30 000 known species). They are micro- and macroscopic, unicellular, colonial, or multicellular, mobile and immobile, attached and free-living. Algae are widespread in water and soil habitats, at different geographic latitudes, and on all continents. They occur in waters with different degrees of salinity, trophicity, organic matter, and hydrogen ions, and at various temperatures. They include planktonic, periphytonic and benthic organisms. Algae are unique model organisms in evolutionary biology and also are used in various genetic, physiological, biochemical, cytological, and other investigations.
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