Combination treatment of corn starch wastewater by sedimentation, microfiltration and reverse osmosis

Combination treatment of sedimentation, microfiltration and reverse osmosis was investigated to recover solids from wastewater produced during the washing of corn starch. Sedimentation was carried out in a column 2.55 m high using a simulated solution of dry corn starch and real corn starch wastewater effluent. Microfiltration using a 0.2 μm PVDF membrane of 7.5 m2 was carried out in a real production plant on wastewater solutions with and without a prior sedimentation step. The permeate of the microfiltration was subjected to reverse osmosis stage in a laboratory flat cell. The sedimentation showed that the settling velocities were very slow, and depended strongly on the molecular structure of the modified starches and the composition of the wastewater, especially when salt was present because cationic starch production. The highest concentration factor achieved by microfiltration was 8.25 in the case of oxidized starch with prior sedimentation. The highest volumetric reduction percentage and the highest flux were obtained with cationic starch without sedimentation. A sedimentation was useful in the case of oxidized starch but did not improve the processing of cationic starch. When the reverse osmosis stage was included, BOD5 in the discharge water was reduced to just 31.2 mg O2/L.

Graphical abstractFigure optionsDownload full-size imageDownload as PowerPoint slideHighlights► Wastewater from corn starch industry can be treated by membranes process. ► Sedimentation followed by microfiltration and reverse osmosis is an effective process. ► The sedimentation efficiency depends on the type of starch. ► The highest concentration factor was 8.2 including sedimentation and without was 3.2. ► Reverse osmosis as a final step can reduce the BOD in 10% resulting BOD of 31.2 mg/L.