Mosteo R, Ormad M P, Ovelleiro J L
Department of Chemical Engineering and Environmental Technologies, University of Zaragoza, Pedro Cerbuna 12, 50009, Spain.
Water Sci Technol. 2007;56(2):89-94. doi: 10.2166/wst.2007.476.
Winery wastewaters are difficult to treat by conventional biological processes, because they are seasonal and experience substantial flow variations. Photocatalytic advanced oxidation is a promising technology for wastewaters containing high amounts of organic matter. In this research work, solar assisted photo-Fenton processes of both heterogeneous and homogeneous phase are used in the pre-treatment of winery wastewaters. The results of these experiments have confirmed the suitability of the photo-Fenton processes, due to these treatments achieving purification levels of up to 50% (measured as total organic carbon). The intermediate effluents are treated adequately by aerobic biological treatment (activated sludge process), due to the decrease in organic matter concentration present in winery wastewaters. The possibility of a combined photo-Fenton process, based on the use of sunlight, and aerobic biological treatment (activated sludge) is suggested.
酿酒厂废水难以通过传统生物工艺进行处理,因为它们具有季节性且流量变化很大。光催化高级氧化技术是处理含有大量有机物废水的一种很有前景的技术。在这项研究工作中,非均相和均相的太阳能辅助光芬顿工艺被用于酿酒厂废水的预处理。这些实验结果证实了光芬顿工艺的适用性,因为这些处理可实现高达50%的净化水平(以总有机碳衡量)。由于酿酒厂废水中有机物浓度的降低,中间出水通过好氧生物处理(活性污泥法)可得到充分处理。建议采用基于阳光利用的联合光芬顿工艺和好氧生物处理(活性污泥法)。