Treatment of low-concentration uranium-containing wastewater utilizing Scenedesmus sp. with an emphasis on response surface methodology

IF 1.9 3区环境科学与生态学 Q3 ENVIRONMENTAL SCIENCES

Journal of environmental radioactivity Pub Date : 2025-04-18 DOI:10.1016/j.jenvrad.2025.107694

Maryam Ranjbar Safiabad , Parisa Mohammadi , Parisa Tajer-Mohammad-Ghazvini

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Abstract

Microalgae possess various mechanisms to mitigate the toxicity of heavy metals. This study focused on the uranium removal potential of Scenedesmus sp. strain MTR 1901 from waters containing low concentrations of uranium contamination. Response surface methodology (RSM) utilizing central composite design through Design Expert software was employed to identify the key parameters and optimize factors such as pH, time, temperature, metal concentration, and biomass concentration in the process. The results revealed that uranium concentration, pH and time are statistically effective in uranium removal process. The removal efficiency improved from 14.36 % to 79.62 % when the pH was enhanced from 4 to 7.97 during the initial times. Additionally, as the uranium concentration increased from 1 mg to 5 mg/l, the removal efficiency declined from 100 % to 32.19 % in alkaline pH conditions. Increasing time from one to 96 h, the removal efficiency was decreased from 76.14 % to 61.24 %. The 1 g of the alga under the optimal condition (C₀ = 1.57 mg/l, pH 3.22, M = 1.31 g/l, T = 12.8 ^°C, Time = 53 h) can remove 1190 μg of uranium with an absorption efficiency of 99.54 %. The findings indicate that strain MTR 1901 is a promising candidate for the phytoremediation of uranium in aquatic environments that are contaminated with low levels of uranium.

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利用Scenedesmus sp处理低浓度含铀废水，重点是响应面法

微藻具有多种减轻重金属毒性的机制。本文研究了Scenedesmus sp.菌株MTR 1901对含低浓度铀污染水体的除铀潜势。采用响应面法（RSM），通过design Expert软件进行中心复合设计，确定工艺过程中的关键参数，并对pH、时间、温度、金属浓度和生物质浓度等因素进行优化。结果表明，铀浓度、pH值和时间对除铀过程有统计学影响。当初始pH由4提高到7.97时，去除率由14.36%提高到79.62%。另外，在碱性条件下，随着铀浓度从1 mg/l增加到5 mg/l，去除率从100%下降到32.19%。时间由1 h增加到96 h，去除率由76.14%下降到61.24%。在最佳条件（C0 = 1.57 mg/l, pH = 3.22, M = 1.31 g/l, T = 12.8℃，时间= 53 h）下，1 g海藻对铀的吸收率为1190 μg，吸收率为99.54%。研究结果表明，菌株MTR 1901是植物修复低水平铀污染水生环境中铀的一个有希望的候选菌株。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of environmental radioactivity 环境科学-环境科学

CiteScore

4.70

自引率

13.00%

发文量

209

审稿时长

73 days

期刊介绍： The Journal of Environmental Radioactivity provides a coherent international forum for publication of original research or review papers on any aspect of the occurrence of radioactivity in natural systems. Relevant subject areas range from applications of environmental radionuclides as mechanistic or timescale tracers of natural processes to assessments of the radioecological or radiological effects of ambient radioactivity. Papers deal with naturally occurring nuclides or with those created and released by man through nuclear weapons manufacture and testing, energy production, fuel-cycle technology, etc. Reports on radioactivity in the oceans, sediments, rivers, lakes, groundwaters, soils, atmosphere and all divisions of the biosphere are welcomed, but these should not simply be of a monitoring nature unless the data are particularly innovative.