Simultaneous Carbon Capture, Biomass Production, and Diary Wastewater Purification by Spirulina maxima Photobioreaction

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• 作者：Wei-Tung Chang ; Mengshan Lee ; Walter Den
• 刊名：Industrial & Engineering Chemistry Research
• 出版年：2013
• 出版时间：February 6, 2013
• 年：2013
• 卷：52
• 期：5
• 页码：2046-2055
• 全文大小：409K
• 年卷期：v.52,no.5(February 6, 2013)
• ISSN：1520-5045

文摘

The feasibility of a two-stage process involving carbon dioxide capturing and a photobioreaction (containing microalgae cells of Spirulina maxima) was investigated for the dual purpose of CO₂ sequestration and wastewater remediation. The study systematically demonstrated the capability of CO₂ removal through wet scrubbing using diluted wastewater as the scrubbing liquid and the potential of biomass growth in the CO₂-enriched wastewater. The NaOH-alkalized wastewater provided a CO₂ absorption capacity approximately equal to 0.5 g CO₂ g^鈥? NaOH at 0.5 M, and the absorbed CO₂ was effectively converted into usable bicarbonate to support the growth of S. maxima. The biomass productivity using the CO₂-enriched wastewater (30% diluted) was 0.036 g L^鈥? d^鈥?, which was in line with the productivity obtained from the controlled growth tests using NaHCO₃ as the carbon source. Dilution of raw dairy (milk processing) wastewater was necessary as high chemical oxygen demand (COD) loading inhibited the growth of S. maxima. However, with sufficient dilution, as the COD was less than 300 mg L^鈥?, the COD was effectively removed (79%) during the microalgae cultivation period, as were NH₄⁺ (51%) and PO₄^{鈥?/sup> (35%) to lesser extents. The uptake of organic carbon indicated that Spirulina grew mixotrophically in the wastewater. Furthermore, by virtue of the hydroxide reaction with CO₂ that form aqueous carbonates (lowering the pH) and the photosynthetic activity that consumes carbonates (increase the pH), the solution pH can effectively be used as the controlling parameter in operation of the system.}