Cook D, Newcombe G, Sztajnbok P
Australian Water Quality Centre, SA Water Corp., PMB 3 Salisbury, SA 5108, Australia.
Water Res. 2001 Apr;35(5):1325-33. doi: 10.1016/s0043-1354(00)00363-8.
Blooms of blue-green algae in reservoirs often produce the musty-earthy taste and odour algal metabolites 2-methylisoborneol (MIB) and geosmin. MIB and geosmin are not removed by conventional water treatment and their presence in the distribution system, even at low ng L-1 levels, can result in consumer complaints. Powdered activated carbon (PAC) can effectively remove MIB and geosmin when the correct dose is applied. The homogeneous surface diffusion model (HSDM) was used to predict PAC doses required to reduce MIB and geosmin concentrations to below 10 ng L-1 at four water treatment plants in Adelaide, South Australia. In jar tests, undertaken under treatment plant conditions, the predicted doses were found to produce water of the desired quality in three of the four waters. The poor predictions found in the fourth water, which had a considerably higher turbidity, were attributed to the incorporation of PAC in a larger, denser floc, leading to a reduced effective contact time of the adsorbent. It was found that higher doses of PAC were required for both compounds to produce acceptable quality water when turbidities rose above 26 NTU.
水库中的蓝藻水华通常会产生带有霉味和土腥味的藻类代谢产物2-甲基异冰片(MIB)和土臭素。传统的水处理工艺无法去除MIB和土臭素,即使它们在配水系统中的含量低至纳克/升级别,也可能引发消费者投诉。当投加正确剂量的粉末活性炭(PAC)时,它能够有效去除MIB和土臭素。采用均相表面扩散模型(HSDM)预测了南澳大利亚阿德莱德市四家水处理厂将MIB和土臭素浓度降低至10纳克/升以下所需的PAC剂量。在模拟水厂条件进行的烧杯试验中,发现预测剂量在四分之三的水体中能够产出符合质量要求的水。在第四种水体中预测效果不佳,该水体浊度相当高,这归因于PAC混入了更大、更密实的絮凝体中,导致吸附剂的有效接触时间缩短。研究发现,当浊度升至26 NTU以上时,两种化合物都需要更高剂量的PAC才能产出质量合格的水。
