紫外强化超声降解公路截流池水中双酚A和芘的研究

IF 0.5 Q4 ENGINEERING, CIVIL Architecture Civil Engineering Environment Pub Date : 2022-06-01 DOI:10.2478/acee-2022-0021
Jakub Copik, E. Kudlek, M. Dudziak
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引用次数: 0

摘要

由于所谓的道路径流,许多不同的污染物,包括双酚A (BPA)和芘(PYR)可以进入环境和截留盆地。文献中还建议,使用常规处理方法去除它们可能存在问题,应开发现代技术。在本研究中,首次尝试以超声波为单一工艺,在紫外线照射辅助下去除BPA和PYR。结果表明,超声处理30 min后,BPA的降解率达到92%,PYR被完全去除,但处理1 min后BPA的降解率明显高于PYR。在研究中还对脉冲超声的效果进行了评价,发现脉冲超声对微污染物的去除效果可以高于连续模式下的超声。研究表明,超声波联合紫外线照射对BPA和PYR的去除率最高,处理30 min, BPA去除率达95%。然而,毒性评价表明,随着治疗时间的增加,毒性作用增加。这种现象可能与研究中发现的副产物形成的降解有关。
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Degradation of Bisphenol A and Pyrene from Highway Retention Basin Water Using Ultrasound Enhanced by UV Irradiation
Abstract Due to the so-called road run-off, many various contaminants including Bisphenol A (BPA) and Pyrene (PYR) could enter the environment and retention basins. It was also suggested in the literature that their removal by using conventional treatment methods could be problematic, and modern techniques should be developed. In this study, the first attempt to remove BPA and PYR by using ultrasonication as a single process and with UV irradiation assistance was performed. The results showed that after 30 min of sonication, the degradation rate of BPA reached 92% while PYR was completely removed, however, after 1 min of the treatment degradation rate of BPA was significantly higher than PYR. In the study effect of pulsed ultrasound was also evaluated and it was found that its effectiveness in micropollutants removal could be higher than ultrasonication in continuous mode. Research revealed that the maximum removal rate of BPA and PYR was obtained during the ultrasonication process combined with UV irradiation-30 min of treatment resulted in 95% of BPA degradation. However, toxicity assessment showed that with an increase in the treatment time, an increase of toxic effects occurs. This phenomenon might be related to degradation of by-products formation which were identified in the study.
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