The use of surfactant-based separation techniques for monitoring of orthophosphate in natural waters and wastewater

In an effort to monitor orthophosphate in natural waters and wastewater in the Ipirous region (Greece), an analytical methodology was established owing to the need for interference-free determination at the low mg/l levels. The method applied for the determination of orthophosphate is based on its r...

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Published in	The Science of the total environment Vol. 305; no. 1; pp. 157 - 167
Main Authors	Katsaounos, Christos Z., Giokas, Dimosthenis L., Vlessidis, Athanasios G., Paleologos, Evangelos K., Karayannis, Miltiades I.
Format	Journal Article
Language	English
Published	Shannon Elsevier B.V 15.04.2003 Elsevier Science
Subjects	Analysis methods Analytical chemistry Applied sciences Chemistry Cloud point extraction Earth sciences Earth, ocean, space Engineering and environment geology. Geothermics Engineering geology Environmental Monitoring - methods Exact sciences and technology Insecticides - analysis Natural water pollution Natural waters Organothiophosphorus Compounds Orthophosphate orthophosphates Pollution Sensitivity and Specificity Spectrometric and optical methods Spectrophotometry Surface-Active Agents - chemistry Waste Disposal, Fluid Wastewater Water Pollutants, Chemical - analysis Water treatment and pollution Greece Europe Greece, Ipirous Cloud point extraction Wastewater Orthophosphate Natural waters Trace analysis Phosphates Chemical analysis Non ionic surfactant Interference Cationic surfactant Waste water Cloud point Analysis method Sample preparation Surveillance Surface water Stream Extraction Water pollution Spectrophotometry Micellization
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ISSN	0048-9697 1879-1026
DOI	10.1016/S0048-9697(02)00498-9

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Abstract	In an effort to monitor orthophosphate in natural waters and wastewater in the Ipirous region (Greece), an analytical methodology was established owing to the need for interference-free determination at the low mg/l levels. The method applied for the determination of orthophosphate is based on its reaction with molybdate towards a yellow heteropoly acid complex, which is electrically balanced with a cationic surfactant (cetylatrimethylammonium bromide) towards a complex non-polar derivative. This derivative is conveniently solubilized in the micelles of a non-ionic surfactant under mild conditions and measured spectrophotometrically at 370 nm after its uptake with a sulfuric acid—methanol solution. By simply preconcentrating 10 ml of sample volume a detection limit of 2.6 μM was obtained. Due to the required dilution step and signal enhancement caused by the presence of surfactant, interference from the presence of anionic species (mostly silicate and arsenate) was minor and could be conveniently alleviated by the use of tartaric acid and Na 2SO 3, respectively. The method was successfully applied to real samples obtained for the natural sites subject to the monitoring survey ranging in their matrix complexity from clean river water to wastewater.
AbstractList	Surface-water and wastewater samples were collected in the Epirous region of Greece and used to validate a surfactant-based separation technique for monitoring orthophosphate. The method utilized the reaction of phosphomolybdate heteroply acid under acidic conditions with a cationic surfactant toward a complex nonpolar derivative that was solubilized in the micelles of a nonionic surfactant under mild temperature conditions. The cationic surfactant was cetylatrimethylammonium bromide, and the nonionic surfactant was Triton X-45. The results from application of the method were compared with those obtained using reference techniques. The results showed that the new method worked well, and compared with the reference methods, the surfactant-based separation technique was more flexible and allowed for the simultaneous analysis of a large number of samples. Interference from silicate and arsenic was minor. In an effort to monitor orthophosphate in natural waters and wastewater in the Ipirous region (Greece), an analytical methodology was established owing to the need for interference-free determination at the low mg/l levels. The method applied for the determination of orthophosphate is based on its reaction with molybdate towards a yellow heteropoly acid complex, which is electrically balanced with a cationic surfactant (cetylatrimethylammonium bromide) towards a complex non-polar derivative. This derivative is conveniently solubilized in the micelles of a non-ionic surfactant under mild conditions and measured spectrophotometrically at 370 nm after its uptake with a sulfuric acid-methanol solution. By simply preconcentrating 10 ml of sample volume a detection limit of 2.6 microM was obtained. Due to the required dilution step and signal enhancement caused by the presence of surfactant, interference from the presence of anionic species (mostly silicate and arsenate) was minor and could be conveniently alleviated by the use of tartaric acid and Na(2)SO(3), respectively. The method was successfully applied to real samples obtained for the natural sites subject to the monitoring survey ranging in their matrix complexity from clean river water to wastewater.In an effort to monitor orthophosphate in natural waters and wastewater in the Ipirous region (Greece), an analytical methodology was established owing to the need for interference-free determination at the low mg/l levels. The method applied for the determination of orthophosphate is based on its reaction with molybdate towards a yellow heteropoly acid complex, which is electrically balanced with a cationic surfactant (cetylatrimethylammonium bromide) towards a complex non-polar derivative. This derivative is conveniently solubilized in the micelles of a non-ionic surfactant under mild conditions and measured spectrophotometrically at 370 nm after its uptake with a sulfuric acid-methanol solution. By simply preconcentrating 10 ml of sample volume a detection limit of 2.6 microM was obtained. Due to the required dilution step and signal enhancement caused by the presence of surfactant, interference from the presence of anionic species (mostly silicate and arsenate) was minor and could be conveniently alleviated by the use of tartaric acid and Na(2)SO(3), respectively. The method was successfully applied to real samples obtained for the natural sites subject to the monitoring survey ranging in their matrix complexity from clean river water to wastewater. In an effort to monitor orthophosphate in natural waters and wastewater in the Ipirous region (Greece), an analytical methodology was established owing to the need for interference-free determination at the low mg/l levels. The method applied for the determination of orthophosphate is based on its reaction with molybdate towards a yellow heteropoly acid complex, which is electrically balanced with a cationic surfactant (cetylatrimethylammonium bromide) towards a complex non-polar derivative. This derivative is conveniently solubilized in the micelles of a non-ionic surfactant under mild conditions and measured spectrophotometrically at 370 nm after its uptake with a sulfuric acid--methanol solution. By simply preconcentrating 10 ml of sample volume a detection limit of 2.6 mu M was obtained. Due to the required dilution step and signal enhancement caused by the presence of surfactant, interference from the presence of anionic species (mostly silicate and arsenate) was minor and could be conveniently alleviated by the use of tartaric acid and Na sub(2)SO sub(3), respectively. The method was successfully applied to real samples obtained for the natural sites subject to the monitoring survey ranging in their matrix complexity from clean river water to wastewater. In an effort to monitor orthophosphate in natural waters and wastewater in the Ipirous region (Greece), an analytical methodology was established owing to the need for interference-free determination at the low mg/l levels. The method applied for the determination of orthophosphate is based on its reaction with molybdate towards a yellow heteropoly acid complex, which is electrically balanced with a cationic surfactant (cetylatrimethylammonium bromide) towards a complex non-polar derivative. This derivative is conveniently solubilized in the micelles of a non-ionic surfactant under mild conditions and measured spectrophotometrically at 370 nm after its uptake with a sulfuric acid-methanol solution. By simply preconcentrating 10 ml of sample volume a detection limit of 2.6 microM was obtained. Due to the required dilution step and signal enhancement caused by the presence of surfactant, interference from the presence of anionic species (mostly silicate and arsenate) was minor and could be conveniently alleviated by the use of tartaric acid and Na(2)SO(3), respectively. The method was successfully applied to real samples obtained for the natural sites subject to the monitoring survey ranging in their matrix complexity from clean river water to wastewater. In an effort to monitor orthophosphate in natural waters and wastewater in the Ipirous region (Greece), an analytical methodology was established owing to the need for interference-free determination at the low mg/l levels. The method applied for the determination of orthophosphate is based on its reaction with molybdate towards a yellow heteropoly acid complex, which is electrically balanced with a cationic surfactant (cetylatrimethylammonium bromide) towards a complex non-polar derivative. This derivative is conveniently solubilized in the micelles of a non-ionic surfactant under mild conditions and measured spectrophotometrically at 370 nm after its uptake with a sulfuric acid—methanol solution. By simply preconcentrating 10 ml of sample volume a detection limit of 2.6 μM was obtained. Due to the required dilution step and signal enhancement caused by the presence of surfactant, interference from the presence of anionic species (mostly silicate and arsenate) was minor and could be conveniently alleviated by the use of tartaric acid and Na 2SO 3, respectively. The method was successfully applied to real samples obtained for the natural sites subject to the monitoring survey ranging in their matrix complexity from clean river water to wastewater.
Author	Karayannis, Miltiades I. Giokas, Dimosthenis L. Vlessidis, Athanasios G. Paleologos, Evangelos K. Katsaounos, Christos Z.
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Keywords	Cloud point extraction Wastewater Orthophosphate Natural waters Trace analysis Phosphates Chemical analysis Non ionic surfactant Interference Cationic surfactant Waste water Cloud point Analysis method Sample preparation Surveillance Surface water Stream Extraction Water pollution Spectrophotometry Micellization
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Snippet	In an effort to monitor orthophosphate in natural waters and wastewater in the Ipirous region (Greece), an analytical methodology was established owing to the... Surface-water and wastewater samples were collected in the Epirous region of Greece and used to validate a surfactant-based separation technique for monitoring...
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SubjectTerms	Analysis methods Analytical chemistry Applied sciences Chemistry Cloud point extraction Earth sciences Earth, ocean, space Engineering and environment geology. Geothermics Engineering geology Environmental Monitoring - methods Exact sciences and technology Insecticides - analysis Natural water pollution Natural waters Organothiophosphorus Compounds Orthophosphate orthophosphates Pollution Sensitivity and Specificity Spectrometric and optical methods Spectrophotometry Surface-Active Agents - chemistry Waste Disposal, Fluid Wastewater Water Pollutants, Chemical - analysis Water treatment and pollution
Title	The use of surfactant-based separation techniques for monitoring of orthophosphate in natural waters and wastewater
URI	https://dx.doi.org/10.1016/S0048-9697(02)00498-9 https://www.ncbi.nlm.nih.gov/pubmed/12670765 https://www.proquest.com/docview/14654856 https://www.proquest.com/docview/16158627 https://www.proquest.com/docview/73165591
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