Abstract
Permeate flux decline was predicted by means of Song and Elimelech's [1] model. Theoretical results were compared with those obtained in ultrafiltration experiments where TMP and crossflow velocity were varied. Polyethylene glycol (PEG) of 35000 Da was used in the feed solution in a concentration of 10 g/L. The experiments were performed with monotubular ultrafiltration ceramic (Al2O3-TiO2) membranes of 5 kDa (Tami Industries, France). The model predicted a reduction in the influence of transmembrane pressure (TMP) on permeate flux as TMP increased. This was consistent with the experimental results for the lowest crossflow velocity tested (1 m/s). For higher crossflow velocities the reduction in the influence of TMP on permeate flux as TMP increased was higher than that predicted by the model. Model predictions were better for low crossflow velocities, as expected with a model that considers cake formation as the main fouling mechanism. Rapid initial pore blocking may be the main cause of the discrepancie...
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