中文摘要：

利用大型给水管网实验平台,研究双酚A（BPA）在不同管材、水力学条件及水质条件下的降解规律.将管网实验结果与BPA和次氯酸钠在烧杯中的反应降解规律进行对比.BPA利用HPLC荧光检测法进行检测,激发波长为225nm,发射波长为310nm,结果表明,BPA降解除与次氯酸钠主反应有关外,还受到管壁和主体水中化学物质的影响.余氯质量浓度、pH值、溴离子质量浓度、流速和温度的增加有利于BPA的降解.不同管材对BPA的降解存在影响,BPA的降解速率在不锈钢管中最大,PE管次之,内衬水泥球磨铸铁管中最小.研究结果显示,管壁对BPA降解的贡献率约为10%,主体水中氯化产物的贡献率约为30%（其中最终氯化产物的贡献率为20%,剩余10%由氧自由基等贡献）.

英文摘要：

Degradation of BPA under different conditions including different pipes materials, hydraulic con- ditions and water quality was analyzed with the pilot-scale water distribution systems （WDS）. BPA was detected by HPLC fluorescence. Excitation wavelength is 225 nm, and emission wavelength is 310 nm. Experimental results show that the degradation of BPA in WDS is effected by not only NaC10 but also wall of pipes and chemical compounds in bulk water. The increase of mass concentration of free chlorine, pH values, mass concentration of bromide ions, flow velocity and temperature is beneficial to degradation of BPA. Pipe material is another important factor for the degradation of BPA. The degradation rates of BPA follow the order= stainless steel pipe 〉 polyethelene pipe （PE） 〉 ductile iron pipe. Experimental results show that the contribution rates of wall of pipes and chemical compounds of bulk water to the degradation of BPA are 10% and 300%, respectively （including the 10% of intermediate products and the 20% of final chlorinated compounds）.