Chromatographic Separation, Total Determination and Chemical Speciation of Mercury in Environmental Water Samples Using 4-(2-Thiazolylazo) Resorcinol-Based Polyurethane Foam Sorbent-Packed Column

Chemometrics and Data Analysis in Chromatography Pub Date : 2018-11-05 DOI:10.5772/INTECHOPEN.81206

A. Al-Bagawi, W. Ahmad, H. Alwael, Z. Saigl, G. I. Mohammed, Y. M. Moustafa, E. A. Al-Harbi, M. El-Shahawi

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Abstract

A simple method has been developed for quantitative retention of traces of mercury(II) ions from aqueous media using polyurethane foams (PUFs) loaded with 4-(2thiazolylazo) resorcinol (TAR). The kinetics and thermodynamics of the sorption of mercury(II) ions onto PUFs were studied. The sorption of mercury(II) ions onto PUF follows a first-order rate equation with k = 0.176 ± 0.010 min−1. The negative values of ΔH and ΔS may be interpreted as the exothermic chemisorption process and indicative of a faster chemisorption onto the active sites of the sorbent. The sorption data followed Langmuir, Freundlich and Dubinin-Radushkevich (D–R) isotherm models. The D-R parameters β, KDR and E were 0.329 mol2 kJ−2, 0.001 μmol g−1 and 1.23 ± 0.07 kJ/mol for the TAR-loaded PUFs, respectively. An acceptable retention and recovery (99.6 ± 1.1%) of mercury(II) ions in water at ≤10 ppb by the TAR-treated PUFs packed columns were achieved. A retention mechanism, involving absorption related to “solvent extraction” and an “added component” for surface adsorption, was suggested for the retention of mercury(II) ions by the used solid phase extractor. The performance of TAR-immobilized PUFs packed column in terms of the number (N), the height equivalent to a theoretical plate (HETP), the breakthrough and critical capacities of mercury(II) ion uptake by the sorbent packed column were found to be 50.0 ± 1.0, 1.01 ± 0.02 mm, 8.75 and 13.75 mg/g, respectively, at 5 mL/min flow rate.

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环境水样中汞的4-(2-噻唑偶氮)间苯二酚基聚氨酯泡沫吸附填料柱色谱分离、总量测定及化学形态分析

利用负载4-(2噻唑偶氮)间二酚(TAR)的聚氨酯泡沫(PUFs)，开发了一种简单的方法，用于定量保留水介质中痕量的汞(II)离子。研究了puf吸附汞(II)离子的动力学和热力学。汞(II)离子在PUF上的吸附遵循k = 0.176±0.010 min−1的一级速率方程。ΔH和ΔS的负值可以解释为放热化学吸附过程，表明在吸附剂的活性位点上有更快的化学吸附。吸附数据遵循Langmuir, Freundlich和Dubinin-Radushkevich (D-R)等温线模型。含tar的PUFs的D-R参数β为0.329 mol2 kJ−2,KDR为0.001 μmol g−1,E为1.23±0.07 kJ/mol。经tar处理的PUFs填充柱在≤10 ppb的水中获得了可接受的汞(II)离子的保留和回收率(99.6±1.1%)。提出了一种固相萃取器对汞(II)离子的保留机制，包括与“溶剂萃取”相关的吸收和表面吸附的“添加组分”。在5 mL/min流速下，tar -固定化PUFs填充柱的吸附量(N)为50.0±1.0 mm，吸附高度(HETP)为1.01±0.02 mm，吸附汞离子的突破量为8.75 mg/g，吸附汞离子的临界容量为13.75 mg/g。

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Chemometrics and Data Analysis in Chromatography

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