Abstract
Deep bed filtration has traditionally been used as a pretreatment in seawater desalination. The performance of contact flocculation–filtration (CFF) as pretreatment of seawater reverse osmosis (SWRO) was evaluated in terms of pressure drop through the filter and removal of organics and turbidity. The average turbidity, total suspended solids, and dissolved organic carbon (DOC) of raw seawater were 0.92 NTU, 3.6, and 1.12 mg/L, respectively. The performances of CFF were experimentally evaluated with different flocculant doses (0.5–3.0 mg Fe3+/L) and rapid mixing times (1.7–14.4 s). Here rapid mixing was performed in a spiral flocculation unit which consisted of a PVC tube of length 0.5 m and internal diameters of 0.16 and 0.40 cm. The experimental results show that the filtration rate of 10.0 m/h led to an extensive increase in both head loss (pressure drop) and turbidity as compared to those at filtration rates of 5.0 and 7.5 m/h. The head loss also significantly decreased when the flocculant dose was reduced from 3 to 0.5 mg Fe3+/L. However, the organic matter (26% of DOC) removal was lower at a lower dose of ferric chloride (1.0 mg/L as Fe3+). The removal efficiency of DOC at low concentration of ferric was improved considerably through the improvement of rapid mixing. The application of CFF process also led to a significant decrease in ultrafilter-modified fouling index (UF-MFI).
Acknowledgements
The authors acknowledge the financial support of the National Centre of Excellence in Desalination Australia which is funded by the Australian Government through the Water for the Future initiative.
Notes
The 4th International Desalination Workshop (IDW4), 16–18 November 2011, Jeju Island, South Korea
aConcentrations of the different organic fractions in seawater.
bRemoval efficiencies of different organic fractions in seawater after treatment.
*CFF (contact flocculation filtration) at 7.5 m/h (39.3 mL/min), G = 2418 s−1, Fe3+: 0.5 mg/L.
**SMCHS (submerged membrane coagulation hybrid system) at 20 L/m2 h (33.3 mL/min), Fe3+: 0.5 mg/L.