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A new method is suggested for determining the stability constant of ternary surface complexes (TSC) at liquid-solid interfaces in natural water. Its basic principle is based on the rule of left-right shift (RLRS) of S-shaped curve, from which the peak-type curve of E(%) with the concentration of organic matter is obtained. The peak-type curve is further used to obtain the (ksAM/kSM) values by using respectively the method of equality of E(%) when [H2A] = [H2A]0 (1) and the method of [H2A]max (2). From the known KSM,the stability constant KSAM of liquid-solid interfacial ternary surface complexes can be obtained. 相似文献
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建立了一套适合海水中溶解态硝酸盐的氮同位素分析的预处理方法.以蒸馏为基础,先去除海水样品中的NO-2-N和NH+4-N,然后加入达氏合金将海水样品中的NO-3-N还原为NH+4-N,并通过蒸馏富集,馏出液用沸石吸附后,经过滤等步骤,送入同位素质谱仪检测15N.研究了预处理过程中的蒸馏条件、盐度影响、沸石吸附效率以及大体积水样预处理方法的改进等.结果表明,每300 mL水样中加入0.5 g达氏合金在强碱性条件下蒸馏30 min,氮回收率平均可达(104.9±4.2)%(n=6);当盐度从0%增加至0.5%时,同位素分馏程度迅速减小盐度再增大时(1%~3.5%),同位素分馏变化不明显.沸石对铵氮的平均吸附率较高,约为(95.96±1.08)%(n=6);处理大体积水样时多次蒸馏并改进了馏出液的收集方式,实验效果较好.应用此方法对长江口海域水样进行了分析,结果表明,这一方法可以应用于海水中溶解态硝酸盐的氮同位素分析,为海水中溶解态氮的来源问题及循环机理研究等提供了有效信息. 相似文献
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