共查询到17条相似文献,搜索用时 62 毫秒
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聚天冬氨酸多元阻垢性能的研究 总被引:1,自引:0,他引:1
聚天冬氨酸(PASP)是一种新型的可生物降解的水处理化学品。通过对CaCO3、CaSO4、BaSO4、SrSO4和CaF2的阻垢实验,对PASP的阻垢效果作了评价。结果表明:以天冬氨酸为原料合成的PASP1对CaF2垢阻垢效果较好;以马来酸酐为原料合成的PASP2对CaSO4、BaSO4、SrSO4垢阻垢效果较好,可以考虑做反渗透系统的阻垢剂。 相似文献
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聚环氧琥珀酸多元阻垢分散性能的研究 总被引:14,自引:4,他引:10
聚环氧琥珀酸(PESA)是一种新型的可生物降解的水处理化学品。通过对两种不同级别原料合成的PESA在不同的加药量、不同硬度和不同碱度等条件下进行阻垢分散性能比较试验发现,PESA1(分析级)对CaCO3垢的阻垢性能略优于PESAⅡ(工业级)。通过对CaCO3、CaSO4、BaSO4、SrSO4、CaF2的阻垢实验和对氧化铁分散性能的实验,对PESA的阻垢分散效果进行了评价。结果表明:在实验条件下,PESA对BaSO4、SrSO4垢阻垢效果优异,对CaSO4、CaF2垢阻垢效果较好;PESA对氧化铁具有很强的分散能力。 相似文献
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聚环氧琥珀酸阻硫酸钙垢性能研究 总被引:1,自引:0,他引:1
本文研究了可生物降解的绿色阻垢剂聚环氧琥珀酸对CaSo_4的阻垢性能。结果表明:阻垢效率随阻垢剂浓度的增加而上升,并在阻垢剂浓度为10×10~(-6)时其阻垢效率将近99%;阻垢效率分别随温度、Ca~(2 )浓度、SO_4~(2-)浓度的增加而稍微下降;pH值对阻垢效率的影响不大;电子扫描显微镜显示,聚环氧琥珀酸投加量为10×10~(-6)时,CaSO_4晶体形状发生了严重的畸变。 相似文献
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通过合成和阻垢实验及垢样形貌分析,研究了聚柠檬酸对CaCO_3和CaSO_4的阻垢性能。结果表明,聚柠檬酸对CaCO_3的阻垢率很低;对CaSO_4的阻垢效果很好,当聚柠檬酸投加量为2 mg/L时,阻CaSO_4垢率可达到90%以上。与传统阻垢剂羟基亚乙基二膦酸(HEDP)和聚环氧琥珀酸(PESA)相比,聚柠檬酸对CaSO_4的阻垢效果明显优于HEDP和PESA。加入聚柠檬酸后CaCO_3垢晶体变成片状,垢质疏松;CaSO_4垢晶体长度变短,晶体表面不再光滑致密,出现严重畸变,垢质也比较疏松。 相似文献
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The objective of this work was to seek conditions leading to rapid deposition of a tenacious calcium sulfate scale layer from a falling film flowing on a heated stainless steel surface. The main results were as follows: (A) The rate of calcium sulfate scale deposition was considerably enhanced (by a factor of 5–10) when boiling occurred on the film flowing on the heat transfer surface; (B) Filtration of suspended calcium sulfate particles from the feed solution led to a very large reduction (by a factor of 20–30) in the rate of scale deposition. This result is entirely opposite to that encountered in the formation of calcium carbonate scales where particle filtration greatly enhances the rate of deposition of a calcium carbonate scale layer and increases considerably scale tenacity. These observations suggest that the dominant mechanisms in calcium sulfate formaiton is particulate deposition while the dominant mechanism in calcium carbonate scale formation is wall crystallization. (C) Pure calcium sulfate scale deposits were found to be far less adherent than deposits containing co-precipitated calcium carbonate. The co-precipitated calcium carbonate seems to act as a bonding cement, enhancing considerably the tenacity of the calcium sulfate scale layer. 相似文献
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