Effect of N"2-back-flushing in multichannels ceramic microfiltration system for paper wastewater treatment [An article from: Desalination]

This digital document is a journal article from Desalination, published by Elsevier in 2007. The article is delivered in HTML format and is available in your Amazon.com Media Library immediately after purchase. You can view it with any web browser.

Description:
The ceramic microfiltration system with periodic N"2-back-flushing was operated for treating paper wastewater discharged from a company making toilet papers by recycling milk or juice cartons. Two kinds of alumina membranes with 7 channels used here for recycling paper wastewater. The optimal N"2 filtration time for HC04 membrane with 0.4@mm pore size was lower value of 4min than 16min for HC10 with 1.0@mm pore size at fixed back-flushing time 40s, trans-membrane pressure 1.0kg"f/cm^2 and back-flushing pressure 5.0kg"f/cm^2. From the results of TMP effect at fixed filtration time and back-flushing time, the lower TMP was better on membrane fouling because high TMP could make easily membrane cake and fouling inside membrane structure. However, we could acquire the highest volume of total permeate for the reason that TMP was driving force in our filtration system to treat paper wastewater. Then the permeate water of low turbidity was acquired in our microfiltration system using multichannels ceramic membranes, and the treated water could be reused in paper process.