Provide PDF Format
AWWA ACE61855
- Removal Efficiency and Paths of Microcystins by Water Treatment Process
- Conference Proceeding by American Water Works Association, 06/17/2005
- Publisher: AWWA
$12.00$24.00
Microcystins (MC) are hepatotoxins containing cyclic heptapeptides and Microcystin-LR(MC-LR) has been strongly linked to liver tumors. MC are chemically stable in water and can't beeffectively removed by conventional water treatment processes. This study investigated the removal rates andpaths of MC by several water treatment processes.The ELISA and HPLC were used for detection of MC. The concentration of microcystins in Lake Taihu,China is higher than the guide one suggested by the World Health Organization (WHO). It became a potential threat to human health. Thedistributions of microcystins in Lake Taihu were different in different seasons and sites. The microcystinsconcentration had significant correlation with the water temperature, TP, Chl-a, CODMn, pH,cyanobacteria biomass and total algae biomass.The investigation showed that the prechlorination of eutrophic lake water led to the release of intracellulartoxins to water phase. The extracellular MC had no change in the coagulation-sedimentation process.17.2%-40.4% of extracellular MC and 19.0%-36.6% of total MC were removed by filtration. 30%-45.3% of extracellular MC and 30%-51.7% of total MC were removed by chlorination.The cascade biological contact oxidation reactor was more effective and stable for the treatment ofeutrophic water than a one-step reactor. Within 2 hours, the removal rates of extracellular MC, MC-RR andMC-LR reached over 85%, 81.7% and 86.7%, respectively, and the removal rates of total MC, MC-RR andMC-LR reached over 84%, 80.5% and 71.5%, respectively. In the biological pretreatment procedure foreutrophic water, MC were degraded by special bacteria and assimilated by heterotrophic microorganisms.The biological activated carbon (BAC) process was used for the advanced treatment for drinking watercontaining MC. 60.6% of MC-RR, 63.3% of MC-YR and 68.8% of MC-LR were removed within 1.5hours. In this process MC were removed by two paths, one was MC degraded directly by microorganismsand the other was MC degraded by microorganisms after adsorbed by activated carbon. Includes 13 references, tables, figures.
Related Products
AWWA JAW6691
Journal AWWA - Direct Filtration: Polymer in Backwash Serves Dual Purpose ..
$15.00 $30.00
AWWA JAW10127
Journal AWWA - Determining Residual Chlorine: Effect of Temperature on the Titrametric Starch-Iodine..
$15.00 $30.00
AWWA WQTC52951
Water Quality Differences Between the Ohio River and the Storage Reservoir of the City of Newport Dr..
$12.00 $24.00
AWWA ACE68658
Nutrient Flushes in Stormwater Runoff from Developing Catchments in an Upper Piedmont Watershed..
$12.00 $24.00