摘要
通过静态容量瓶法研究了不同钙碱浓度条件下,磺酸盐共聚物AA/AMPS同时稳定Zn2+和PO43-的性能。实验结果表明:钙碱浓度对磺酸盐共聚物稳定PO43-和Zn2+性能的影响均较大。Ca2+介于400~600 mg/L为磺酸盐共聚物对PO43-稳定性的拐点,Ca2+介于600~800 mg/L为磺酸盐共聚物对Zn2+稳定性的拐点;当Ca2+浓度低于拐点时,磺酸盐共聚物对2种离子的稳定性均较好,且受钙碱浓度影响较小;当Ca2+浓度高于拐点时,磺酸盐共聚物对2种离子的稳定性均较差。由于磺酸盐共聚物对钙碱的稳定性能较差,实际应用时需单独投加阻碳酸钙垢性能较好的水处理剂。
By the static volumetric flask method,the simultaneous stabilizing capacities of sulphonate copolymerAA/AMPS for PO43- and Zn2+ has been studied under different Ca2+ concentration and alkalinity conditions. The re-sults show that the effects of Ca2+ concentration and alkalinity on the stabilizing capacities of sulphonate copolymerfor both PO43- and Zn2+ are comparatively larger. Ca2+ concentration between 400-600 mg/L is the inflection point ofthe stabilizing capacity of sulphonate copolymer for PO2-. And, Ca2+ concentration between 600-800 mg/L is the in-flection point of the stabilizing capacity of sulphonate copolymer for Zn2+. When Ca2+ concentration is below the in-flection point, the stabilizing capacities of sulphonate copolymer for both PO43- and Zn2+ are comparatively good.Meanwhile, Ca2+ concentration and alkalinity has less influence on the stabilizing capacity of sulphonate copolymer.When Ca2+ concentration is higher than the inflection point,the stabilizing capacities of sulphonate copolymer for PO43- and Zn2+ are poor. Since the stabilizing capacity of sulphonate copolymer for Ca2+ concentration and alkalinity ispoor,it is necessary to separately add a kind of water treatment agent which has good scale inhibiting capacity forcalcium carbonate, in actual application.
出处
《工业水处理》
CAS
CSCD
北大核心
2014年第6期59-62,共4页
Industrial Water Treatment
