Biofouling removal in spiral-wound nanofiltration elements using two-phase flow cleaning

Biolouling has detrimental effects on the feed channel pressure drop and the permeate flux in high-pressure membrane processes such as NF and RO. Two-phase flow cleaning is a chemical-free technique that is able to remove such biotilms. This paper presents a study into the effects of the gas/liquid ratio, Feed spacer geometry, applied pressure and liquid velocity On the efficiency of two-phase flow cleaning in spiral-wound nanotiltration elements. A high-speed camera, optical coherence tomography and scanning electron microscopy were used to study biofouling and its removal. Our results show that two conditions must be met to ensure that a sufficiently high shear force is applied to biofilms on membrane and spacer surfaces. A good bubble distribution in the channel is the first requirement. While it is mainly the structure of the feed spacer that controls bubble flow and bubble size, a minimum gas/liquid ratio of 0.5 is necessary to achieve a good bubble distribution. The second condition is the use of a sufficiently high liquid velocity during cleaning. The bubble velocity was found to be 3.5-5.5 times as high as the used liquid velocity, and responsible for a marked improvement in the flux recovery. (C) 2014 Elsevier B.V. All rights reserved.