电絮凝与微生物电化学细胞裂解技术分离纯化制药工业废水回用研究

P. S, C. C., P. P., S. S, S. P
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引用次数: 0

摘要

21世纪人类生活水平的提高,全球气候变化、人口快速增长和环境污染等问题变得越来越重要。人类活动给生态系统带来了很大的压力。水污染是必须立即解决的几个环境问题之一。与水有关的疾病的增加为环境退化的程度提供了一个合理的估计。人类可以日复一日地利用它。在制药实验室或工业中,水将用于配方、化学合成和清洁等工作。在许多制药实验室和工业中,最终的废水是用一种非常独特的方法来处理的,以去除废水和污染物。相反,这些水通常用于园艺和种植。与生物法、物理法、化学法、吸附法、高级氧化法等传统工艺相比,电絮凝与微生物电解混合技术具有脱色效率高、经济效益好、污泥量少等优点。颜色、COD、BOD、浊度和金属离子是使用电混凝程序将远离废水的污染物。我们正在研究电凝和微生物电细胞裂解工艺,以使废水处理系统可重复使用,并产生更好的结果。它非常便宜和简单,在治疗和管理中只使用一些物质。我们在做这样的设计时考虑的是更长远的考虑。关键词:实验室废水,电絮凝,微生物电解,电极
本文章由计算机程序翻译,如有差异,请以英文原文为准。
SEPARATION AND PURIFICATION OF PHARMACEUTICAL INDUSTRIAL WASTE WATER FOR REUSE BY TECHNIQUES OF ELECTRO-COAGULATION AND MICROBIAL ELECTROCHEMICAL CELL LYSIS PROCESS
The Advancement of human living standards within the twenty-first century, the issues of worldwide global climate change, rapid population increase, and environmental pollution have grown increasingly critical. Human activities have put plenty of strain on the ecosystem. Water contamination is one amongst several environmental issues that has to be addressed immediately. The rise in water-related disorders provides a sensible estimate of the extent of environmental degradation. Humans can utilize it day by day. Water will be employed in a pharmaceutical laboratory or industry for the formulation, chemical synthesis, and cleaning, among other things. The ultimate wastewater in numerous pharmaceutical laboratories and industries is treated in a very sort of ways to get rid of effluent and pollutants. That water, on the opposite hand, are often used for gardening and planting. Compared to other traditional procedures like biological, physical, chemical, adsorption, and advanced oxidation processes, the mixture technique of Electro coagulation and Microbial Electro Cell lysis has high de-colorization efficiency, is economically attractive, and produces little sludge. Color, COD, BOD, turbidity, and metal ions are among the pollutants that will be far away from wastewater using the electro coagulation procedure. We are researching the processes of electro coagulation and microbial electro cell lysis in order to make a wastewater treatment system that is reusable and produces better outcomes. It is incredibly inexpensive and easy, with only some substances being utilized within the treatment and administration. We are considering the longer term when creating such a design. KEYWORDS: Laboratory waste water, Electro-coagulation, Microbial electro cell lysis, Electrodes.
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