微藻作为生物炭生产的潜在媒介:工业废水处理的未来

Sayantani Ghosh , Sulagna Das , Avirup Panja , Alexei Solovchenko , Priyanka Jha
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引用次数: 0

摘要

酿酒、纺织、造纸和纸浆、采矿、化学和核能以及食品加工等各种行业都会产生大量有毒废水。这些废水富含有机化合物、无机盐、悬浮固体、重金属离子和其他污染物,在排放到环境中之前应进行适当处理。最近的研究表明,基于微藻的处理方法非常有效。微藻在这方面非常有效,因为它们能产生氧化污染物的光生氧和降解毒素的酶,容易消耗有机物,并吸收/吸附其他污染物。目前,微藻生物修复的瓶颈在于成本高和能效低。由此产生的生物质可通过各种传统和现代技术用于生产各种形式的生物能源,如水热碳化、热解和高温分解。生物炭是这些工艺的宝贵产物之一,它富含营养物质,并能进行离子交换。因此,生物炭有可能应用于农业领域,如改善土壤肥力,以及在废水处理中作为吸附剂去除有机和无机污染物。在此,我们回顾了为基于微藻的废水处理而设计的新工艺,重点是生物炭的生产和利用。我们特别关注生物炭的物理化学特性,以最大限度地实现其目标应用。
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Microalgae as potential agents for biochar production: Future of industrial wastewater treatment
Diverse industries like breweries, textiles, paper & pulp, mining, chemical & nuclear, and food processing generate huge amounts of wastewater which can be toxic. This wastewater, rich in both organic compounds and inorganic salts, suspended solids, heavy metal ions and other pollutants should be properly treated before discharging into the environment. Recent studies demonstrated the efficiency of microalgae-based treatment. Microalgae are efficient in this regard since they produce photogenerated oxygen oxidizing the pollutants and toxin degrading enzymes, readily consume organics, and uptake/adsorb other pollutants. The current bottlenecks for microalgal bioremediation are high costs and low energy efficiency. The resulting biomass can be utilized for producing various forms of bioenergy via assorted traditional as well as modern techniques such as hydrothermal carbonization, pyrolysis, and torrefaction. One of the valuable outputs of these processes is biochar which is rich in nutrients and is capable of ion exchange. Therefore, it finds potential application in agriculture e.g., for revamping soil fertility and in wastewater treatment as adsorbent removing organic and inorganic pollutants. Here, we review novel processes designed for microalgae-based wastewater treatment with an emphasis on biochar production and utilization. Special attention is paid to the characterization of the physicochemical properties of biochar to maximize its targeted applications.
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