Chromium speciation analysis by ion chromatography coupled with ICP-OES

Jansen van Vuuren, Samantha

04 September 2012

M.Sc. / The behaviour i.e. the distribution, bioavailability and toxicity of an element depends on the particular species in which it is present. That being said the prediction of the behaviour of species can therefore not be predicted by determination of the total concentration alone. Speciation analysis is thus an important process, which seeks to identify and quantify the species that occur in a sample. By identifying the species one is better equipped to predict the behaviour of the element if it were released into the ecosystem as well as if it were used in industrial processes. The speciation analysis of the dominant chromium species, Cr(III) and Cr(VI), has received much attention as these contradictory species are involved in many industrial processes such as plating and tanning for example. The species have opposing behaviour as Cr(III) is found to be a necessary micronutrient for mammals where as Cr(VI) is known to be toxic. Of the numerous methods developed for chromium speciation analysis, the on-line process of chromatographic preconcentration followed by simultaneous detection with a sensitive detector produces a synergistic effect for the successful speciation analysis of chromium. It was thus decided to study ion chromatography hyphenated with an ICP-OES as a means of studying chromium species. Anion chromatography coupled with ICP-OES was the basis for the development of the first method. Complexation of Cr(III) with EDTA to form a monovalent anion preceded its separation from Cr(VI) as the chromate anion. A carbonate-bicarbonate eluent was used to elute the species from a Dionex AG 9 guard column coupled with an AS 9 separation column. This method proved to be effective and fast, with each analysis taking less than two minutes. The second method was based on cation chromatography in the form of a Dionex CG12A guard column being coupled with an ICP-OES spectrometer as the detector. This method made use of a gradient elution program in which hexavalent chromium was eluted first with ammonium nitrate followed by trivalent chromium with nitric acid. This method was successfully applied to synthetic samples and was found to be effective.

Speciation (Chemistry)

Chromium

Ion exchange chromatography

Chromatographic analysis

Inductively coupled plasma spectrometry

Analysis of cobalt, tantalum, titanium, vanadium and chromium in tungsten carbide by inductively coupled plasma - optical emission spectrometry.

Archer, Marcelle

23 May 2005

Please read the abstract in the section 00front of this document / Dissertation (MSc (Chemistry))--University of Pretoria, 2007. / Chemistry / unrestricted

Vanadium

Tantalum

Titanium

Tungsten carbide-cobalt alloys analysis

Inductively coupled plasma spectrometry

Chromium

Cobalt

UCTD

Investigation of two solid sample introduction techniques for the analysis of biological, environmental, and pharmaceutical samples by inductively coupled plasma spectrometry

Lam, Rebecca.

January 2006

No description available.

Laser ablation.

Inductively coupled plasma spectrometry.

Metals -- Analysis.

Trace elements -- Analysis.

The Neolithic and late Iron Age Pottery from Pool, Sanday, Orkney: An archaeological and technological consideration of coarse pottery manufacture at the Neolithic and late Iron Age site of Pool, Orkney incorporating X-Ray Fluorescence, Inductively Coupled Plasma Spectrometric and Petrological Analyses.

MacSween, Ann

January 1990

The Neolithic and late Iron Age pottery from the settlement site of Pool, Sanday, Orkney, was studied on two levels. Firstly, a morphological and technological study was carried out to establish a sequence for the site. Secondly an assessment was made of the usefulness of X-ray Fluorescence Analysis, Inductively Coupled Plasma Spectrometry and Petrological analysis to coarse ware studies, using the Pool assemblage as a case study. Recording of technological and typological attributes allowed three phases of Neolithic pottery to be identified. The earliest phase included sherds of Unstan Ware. This phase was followed by an assemblage characterised by pottery with incised decoration, which was stratified below a traditional Grooved Ware assemblage. The change in pottery styles and manufacturing methods with the Grooved Ware indicated that it evolved elsewhere. Grass tempered and burnished pottery characterised the Iron Age assemblage. Pottery samples from all phases of the site were analysed by XRF and ICPS. In addition, pottery from late Iron Age sites in the area was analysed for comparison with the Pool Iron Age pottery. XRF and ICPS analyses did not distinguish between either different phases at Pool or different Orcadian sites. This was attributed to the similarities in geological deposits over much of Orkney and the variations which can occur within a clay source. A clay survey was carried out in the vicinity of the site, and samples taken for comparison with the Pool pottery. Identification of rocks and minerals in thin section, and grain-size analysis, indicated that the Pool pottery was made locally to the site, and that both primary and secondary clays were used. It was concluded that petrological analysis is more suitable than elemental analysis in the study of coarse wares. / Science-based Archaeology'Committee of the Science and Engineering Research Council.

Neolithic

Iron Age

Orkney

Pottery

X-ray Fluorescence

Inductively Coupled Plasma Spectrometry

Petrological Analysis

A compositional analysis of Roman and early post-Roman glass and glassworking waste from selected British sites : towards an understanding of the technology of glass-making through analysis by inductively-coupled plasma spectrometry of glass and glass production debris from the Roman/Saxon sites at York, Leicester, Mancetter and Worcester

Jackson, Caroline Mary

January 1992

This study is concerned with the compositional analysis of Roman and early post-Roman glass from both domestic assemblages and the remains derived from glass working and producing sites in Britain, using Inductively Coupled Plasma Spectrometry (ICPS). Samples analysed were from glassworking waste from Mancetter (midsecond century), Leicester (third century) and Worcester (first to third centuries), glass production debris, probably manufactured from the raw materials, in conjuncton with a domestic assemblage, from Coppergate (first to fourth centuries, or possibly later), and a domestic assemblage from Fishergate (spanning both the Roman and immediate post- Roman periods). All the glass analysed was shown to be of a typical and uniform soda-limesilica composition, except for a small number of vessel fragments from York which were higher in calcium. Any compositional differences between blue-green glasses typologically dated either to the Roman or Saxon periods, were found not to be consistent. Analysis of the colourless glass showed that the majority appeared to be actively decolorized using antimony, in conjunction with apparent differences in the compositions of the raw materials, when compared to glass of the same date in other colours. Compositional differences between melted waste from Mancetter, Leicester and Worcester, were apparent, but not to an extent which allowed characterization to be successful. Analysis of glassmelting pots from Coppergate showed some high temperature glassworking (and possibly glassmaking) could have occurred. Other debris, thought to be indicative of glassmaking was also analysed and compared to the composition of the Roman domestic assemblage.

930.1

A compositional analysis of Roman and early post-Roman glass and glassworking waste from selected British sites. Towards an understanding of the technology of glass-making through analysis by inductively-coupled plasma spectrometry of glass and glass production debris from the Roman/Saxon sites at York, Leicester, Mancetter and Worcester.

Jackson, Caroline Mary

January 1992

This study is concerned with the compositional analysis of Roman and early post-Roman glass from both domestic assemblages and the remains derived from glass working and producing sites in Britain, using Inductively Coupled Plasma Spectrometry (ICPS). Samples analysed were from glassworking waste from Mancetter (midsecond century), Leicester (third century) and Worcester (first to third centuries), glass production debris, probably manufactured from the raw materials, in conjuncton with a domestic assemblage, from Coppergate (first to fourth centuries, or possibly later), and a domestic assemblage from Fishergate (spanning both the Roman and immediate post- Roman periods). All the glass analysed was shown to be of a typical and uniform soda-limesilica composition, except for a small number of vessel fragments from York which were higher in calcium. Any compositional differences between blue-green glasses typologically dated either to the Roman or Saxon periods, were found not to be consistent. Analysis of the colourless glass showed that the majority appeared to be actively decolorized using antimony, in conjunction with apparent differences In the compositions of the raw materials, when compared to glass of the same date in other 0 colours. Compositional differences between melted waste from Mancetter, Leicester and Worcester, were apparent, but not to an extent which allowed characterization to be successful. Analysis of glassmelting pots from Coppergate showed some high temperature glassworking (and possibly glassmaking) could have occurred. Other debris, thought to be indicative of glassmaking was also analysed and compared to the composition of the Roman domestic assemblage.

Roman glass

Post-Roman glass

Great Britain

glassworking waste

Leicester, England

Worcester, England

Coppergate, York, England

Fishergate, York, England

Mancetter, England

Investigating industrial effluent impacts on municipal wastewater treatment plant

Iloms, Eunice Chizube

07 1900

Industrial effluents with high concentrations of heavy metals are widespread pollutants of great concerns as they are known to be persistent and non-degradable. Continuous monitoring and treatment of the effluents become pertinent because of their impacts on wastewater treatment plants. The aim of this study is to determine the correlation between heavy metal pollution in water and the location of industries in order to ascertain the effectiveness of the municipal waste water treatment plant. Heavy metal identification and physico-chemical analysis were done using Inductively Coupled Plasma Optical Emission Spectrometry (ICP-OES) and multi-parameter probe respectively. Correlation coefficients of the measured values were done to investigate the effect of the industrial effluents on the treatment plants. Heavy metal resistant bacteria were identified and characterised by polymerase chain reaction and sequencing. Leeuwkuil wastewater treatment plants were effective in maintaining temperature, pH, and chemical oxygen demand within South Africa green drop and SAGG Standards whereas the purification plant was effective in maintaining the values of Cu, Zn, Al, temperature, BOD, COD, and TDS within the SANS and WHO standard for potable water. This findings indicated the need for the treatment plants to be reviewed.The industrial wastewater were identified as a point source of heavy metal pollution that influenced Leeuwkuil wastewater treatment plants and the purification plants in Vaal, Vereenining South Africa. Pseudomonas aeruginosa, Serratia marcescens, Bacillus sp. strain and Bacillus toyonensis that showed 100% similarity were found to be resistant to Al, Cu, Pb and Zn. These identified bacteria can be considered for further study in bioremediation. / Environmental Sciences / M. Sc. (Environmental Science)

Industrial effluent

Waste water

Treatment plants

Heavy metals

Physico-chemical parameters

Heavy metal resistant bacteria

628.1620968

Factory and trade waste -- South Africa

Water quality management -- South Africa

Inductively coupled plasma spectrometry