Ultrasonic-assisted nanofiltration separation recovering salvianolic acid B from ethanol wastewater

IF 8.7 1区 化学 Q1 ACOUSTICS Ultrasonics Sonochemistry Pub Date : 2024-06-22 DOI:10.1016/j.ultsonch.2024.106967
Cunyu Li , Yun Ma , Yangyang Xu , Ranyun Qiu , Xin Shen , Lulu Huang , Anrong Liu , Mingming Li , Yunfeng Zheng , Xinglei Zhi
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Abstract

The transformation of salvianolic acid B brought on by heat treatment recovery of ethanol eluent, which is a difficult problem in pharmaceutical technology, affects the purity of raw material when the medicinal raw material salvianolic acid B is purified by resin. Ultrasonic-assisted nanofiltration separation (UANS) was first employed to improve efficiency of resource utilization by regulating rejection and separating salvianolic acid B and rosmarinic acid from organic pharmaceutical wastewater. The rejection was related to three variables: ultrasonic power, pH, and ethanol concentration. But there were differences in the effects of variables on the rejections of salvianolic acid B and rosmarinic acid. The rejections of rosmarinic acid and salvianolic acid B showed a decreasing trend with an increase in ultrasonic power or a decrease in pH; however, when the concentration of ethanol was increased from 5 % to 35 %, the salvianolic acid B rejection increased from 84.96 % to 96.60 % and the rosmarinic acid rejection decreased from 35.09 % to 17.51 %. On the basis of response surface methodology (RSM), the optimal UANS parameters for solution conditions involving different ethanol concentrations are as follows: 10 % ethanol solution (ultrasonic power 500 W and pH 6.15), 20 % ethanol solution (ultrasonic power 500 W and pH 6.54), and 30 % ethanol solution (ultrasonic power 460 W and pH 6.34). The molecular proportions of salvianolic acid B were 10.75 %, 7.13 %, and 8.27 % in 10 %, 20 %, and 30 % ethanol wastewater, while the molecular proportions of rosmarinic acid were 40.52 %, 33.83 %, and 69.87 %, respectively. And the recoveries of salvianolic acid B in 10 %, 20 %, and 30 % ethanol wastewater were 93.56 %, 95.04 %, and 97.30 %, respectively, while the recoveries of rosmarinic acid were 3.19 %, 2.27 %, and 0.56 %. The molecular proportion and the rejection are correlated exponentially. In comparison with conventional nanofiltration separation (CNS), UANS is able to resolve the conflict between rosmarinic acid and salvianolic acid B in pharmaceutical wastewater, as well as enhance resource recycling and separation efficiency to prevent pollution of the environment from pharmaceutical wastewater. Experiments using UANS at different power intensities suggest that the ultrasonic at a power intensity of 46–50 W/L and the power density of 0.92–1.00 W/cm2 may resolve the separation conflict between rosmarinic acid and salvianolic acid B. This work suggests that UANS may be a significant advancement in the field of ultrasonic separation and has several potential uses in the water treatment industry.

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超声波辅助纳滤分离回收乙醇废水中的丹酚酸 B。
药用原料丹酚酸 B 经树脂纯化时,乙醇洗脱液热处理回收带来的丹酚酸 B 转化是制药技术中的难题,影响原料的纯度。首先采用超声波辅助纳滤分离(UANS),通过调节排阻提高资源利用效率,并从有机制药废水中分离出丹参酚酸 B 和迷迭香酸。排斥效果与超声波功率、pH 值和乙醇浓度这三个变量有关。但各变量对丹参酚酸 B 和迷迭香酸去除率的影响存在差异。随着超声波功率的增加或 pH 值的降低,迷迭香酸和丹酚酸 B 的废品率呈下降趋势;但当乙醇浓度从 5 % 增加到 35 % 时,丹酚酸 B 的废品率从 84.96 % 增加到 96.60 %,而迷迭香酸的废品率则从 35.09 % 下降到 17.51 %。根据响应面法(RSM),不同乙醇浓度溶液条件下的最佳 UANS 参数如下:10 % 的乙醇溶液(超声波功率 500 W,pH 值 6.15)、20 % 的乙醇溶液(超声波功率 500 W,pH 值 6.54)和 30 % 的乙醇溶液(超声波功率 460 W,pH 值 6.34)。在10%、20%和30%乙醇废水中,丹酚酸B的分子比例分别为10.75%、7.13%和8.27%,而迷迭香酸的分子比例分别为40.52%、33.83%和69.87%。而在 10 %、20 % 和 30 % 的乙醇废水中,丹酚酸 B 的回收率分别为 93.56 %、95.04 % 和 97.30 %,迷迭香酸的回收率分别为 3.19 %、2.27 % 和 0.56 %。分子比例与回收率呈指数关系。与传统纳滤分离(CNS)相比,UANS 能够解决制药废水中迷迭香酸和丹酚酸 B 之间的矛盾,提高资源循环利用和分离效率,防止制药废水对环境造成污染。在不同功率强度下使用 UANS 的实验表明,功率强度为 46-50 W/L、功率密度为 0.92-1.00 W/cm2 的超声波可解决迷迭香酸和丹酚酸 B 之间的分离矛盾。
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来源期刊
Ultrasonics Sonochemistry
Ultrasonics Sonochemistry 化学-化学综合
CiteScore
15.80
自引率
11.90%
发文量
361
审稿时长
59 days
期刊介绍: Ultrasonics Sonochemistry stands as a premier international journal dedicated to the publication of high-quality research articles primarily focusing on chemical reactions and reactors induced by ultrasonic waves, known as sonochemistry. Beyond chemical reactions, the journal also welcomes contributions related to cavitation-induced events and processing, including sonoluminescence, and the transformation of materials on chemical, physical, and biological levels. Since its inception in 1994, Ultrasonics Sonochemistry has consistently maintained a top ranking in the "Acoustics" category, reflecting its esteemed reputation in the field. The journal publishes exceptional papers covering various areas of ultrasonics and sonochemistry. Its contributions are highly regarded by both academia and industry stakeholders, demonstrating its relevance and impact in advancing research and innovation.
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