采用策略提高臭氧氧化法处理橄榄油废水的实际规模的处理效率。

Adopting strategies to improve the efficiency of ozonation in the real-scale treatment of olive oil mill wastewaters.

机构信息

GERSE, Group on Environment, Reaction and Separation Engineering, Department of Chemical Engineering, Faculty of Sciences and Technology, University of Coimbra, Pólo II--Rua Silvio Lima, 3030-790 Coimbra, Portugal.

出版信息

Environ Technol. 2010 Dec 1;31(13):1459-69. doi: 10.1080/09593330.2010.490858.

DOI:10.1080/09593330.2010.490858

PMID:21214005

Abstract

In this experimental work the ozone action on the depuration of olive oil mill wastewater is studied for different operational conditions based on an actual industrial treatment plant. It was verified that the application of a Mn-Ce-O catalyst prepared at the laboratory, with a Mn/Ce molar proportion of 70/30, enhances the depuration efficiency and the effluent biodegradability. Ozonation operation at the natural pH of the effluent is recommended. Moreover, the integration of the Fenton process as a pretreatment improves the final chemical oxygen demand removal and enables a totally biodegradable effluent to be obtained, as confirmed by respirometric techniques.

摘要

在这项实验工作中，研究了不同操作条件下臭氧对橄榄油厂废水净化的作用，实验基于一个实际的工业处理厂。结果验证，应用在实验室制备的 Mn-Ce-O 催化剂，其中 Mn/Ce 摩尔比例为 70/30，可提高净化效率和废水的可生物降解性。推荐在废水的自然 pH 值下进行臭氧氧化操作。此外，芬顿工艺作为预处理的集成可以提高最终化学需氧量的去除率，并通过呼吸计技术确认获得完全可生物降解的废水。

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采用策略提高臭氧氧化法处理橄榄油废水的实际规模的处理效率。

Adopting strategies to improve the efficiency of ozonation in the real-scale treatment of olive oil mill wastewaters.

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