【摘 要】
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The effects of Ca2+ on membrane fouling and trace organic compounds (TrOCs) removal in an electric field-assisted microfiltration system were investigated in the presence of Na+alone for comparison.In the electric field,negatively charged bovine serum alb
【机 构】
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School of Environmental Science and Engineering,Tianjin University,Tianjin 300350,China
论文部分内容阅读
The effects of Ca2+ on membrane fouling and trace organic compounds (TrOCs) removal in an electric field-assisted microfiltration system were investigated in the presence of Na+alone for comparison.In the electric field,negatively charged bovine serum albumin (BSA)migrated towards the anode far away from the membrane surface,resulting in a 42.9% trans-membrane pressure (TMP) reduction in the presence ofNa+ at 1.5 V.In contrast,because of the stronger charge shielding of Ca2+,the electrophoretic migration of BSA was limited and led to a negiectable effect of the electric field (1.5 V) on membrane fouling.However,un-der 3 V applied voltage,the synergistic effects of electrochemical oxidation and bridging interaction between Ca2+ and BSA promoted the formation of denser settleable flocs and a thinner porous cake layer,which alleviated membrane fouling with a 64.5% decrease in TMP and nearly 100% BSA removal.The TrOCs elimination increased with voltage and reached 29.4%-80.4% at 3 V.The electric field could prolong the contact between TrOCs and strong oxidants generated on the anode,which enhanced the TrOCs removal.However,a stronger charge shielding ability of Ca2+ weakened the electric field force and thus lowered the TrOCs removal.
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