Single standard calibration and data processing in flow injection titration based on concentration gradients.

M C Araújo, A V Santos, R S Honorato, C Pasquini
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引用次数: 3

Abstract

This paper describes use of gradients of concentration generated in flow injection (FI) systems to perform determinations based on points where the concentration of titrant and analyte are at stoichiometric ratio. Two procedures were developed. In one procedure the titrant is injected in a FI manifold and merges with the sample which is continuously pumped towards the detector. In the other procedure the sample is injected and merged with the titrant which is continuously pumped. Both techniques make use of concentration gradients of the sample or titrant generated in FI manifolds that contain a mixing chamber. This gradient is calibrated employing only one standard solution (usually the titrant) in order to convert any detector signal, obtained in the elapsed time after injection, to instantaneous concentration values. The flow system is microcomputer controlled and data are treated to locate points where the concentration of titrant and analyte are at the stoichiometric ratio. These points are found in abrupt changes of the signal x concentration curves obtained in the presence of the reaction. The method has been evaluated for determination of Fe(II) and acetic acid by spectrophotometric and conductimetric detection, respectively. Results show a mean relative standard deviation lower than 1%, an average accuracy of 1% and a high sampling processing capability (40 to 60 samples per hour).

基于浓度梯度的流动注射滴定中的单标准校准和数据处理。
本文描述了使用流动注射(FI)系统中产生的浓度梯度来执行基于滴定剂和分析物浓度处于化学计量比的点的测定。制定了两种程序。在一个程序中,滴定剂被注入到FI歧管中,并与连续泵向检测器的样品合并。在另一个过程中,样品被注入并与持续泵送的滴定剂混合。这两种技术都利用含有混合室的FI歧管中产生的样品或滴定剂的浓度梯度。该梯度仅使用一种标准溶液(通常是滴定剂)进行校准,以便将在注射后经过的时间内获得的任何检测器信号转换为瞬时浓度值。流动系统由微机控制,并对数据进行处理,以确定滴定剂和分析物的浓度达到化学计量比的点。这些点是在有反应时得到的信号x浓度曲线的突变中发现的。用分光光度法和电导法分别测定了铁(II)和乙酸。结果表明,平均相对标准偏差小于1%,平均精度为1%,采样处理能力高(每小时40 ~ 60个样品)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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