Biodegradable Dissolved Organic Carbon (BDOC) Removal from Micro-Polluted Water Source Using Ultrafiltration: Comparison with Conventional Processes, Operation Conditions and Membrane Fouling Control

The biodegradable dissolved organic carbon (BDOC) in micro-polluted water sources affects the drinking water quality and safety in the urban water supply. The conventional technology of coagulation-sedimentation-filtration in a water plant located in the lower reaches of the Yangtze River removed dissolved organic carbon (DOC) with a molecular weight (MW) > 30 kDa effectively, but the BDOC elimination only ranged 27.4-58.1%, due to their predominant smaller MW (<1 kDa), leading to a high residual BDOC of 0.22-0.33 mg/L. To ensure the biological stability of drinking water, i.e., the inability to support microbial growth (BDOC < 0.2 mg/L), a pilot-scale ultrafiltration process (UF, made of aromatic polyamide with MW cut-off of 1 kDa) was operated to remove BDOC as an advanced treatment after sand-filtration. Results showed the membrane flux decreased with the increase in the influent BDOC concentration and decrease in operating pressure. With an operating pressure of 0.25 MPa, the BDOC removal by UF reached 80.7%, leading to a biologically stable BDOC concentration of 0.08 mg/L. The fouling of the membrane was mainly caused by organic pollution. The H2O2-HCl immersion washing method effectively cleaned the membrane surface fouling, with a recovery of membrane flux of 98%.

Automated summary

This study investigated the removal of BDOC from micro-polluted water sources in a water plant located on the lower reaches of the Yangtze River using an ultrafiltration process. Experimental results showed that ultrafiltration effectively removed BDOC, maintaining the BDOC concentration in the water at a biologically stable level.