| Title: | Fast volatile organic compound recovery from soil standards for analysis by thermal desorption gas chromatography |
| Author(s): | Meniconi Mde F; Parris R; Thomas CL; |
| Address: | "Research and Development Centre, Petrobras SA., Av. Um, Quadra 7, Cidade Universitaria-Ilha do Fundao, Rio de Janeiro, R.J.-CEP: 21949-900, Brazil. kvsri@dalton.ncl.res.in" |
| ISSN/ISBN: | 0003-2654 (Print) 0003-2654 (Linking) |
| Abstract: | "The development of high-throughput environmental screening assays are needed to meet high-specification data quality objectives (DQOs) that require large numbers of samples to be taken and analysed rapidly. The acquisition and stabilisation of the sample is a key technical and operational challenge in analytical sequences associated with the determination of volatile organic compound (VOC) contamination of soils. Further the development of miniaturised and embedded analytical systems for environmental conditioning monitoring requires the development of new sampling techniques. A proof-of-concept study is described that shows how pressurised gas, in this case carbon dioxide, may be used to recover reversibly-bound VOCs from soil into an adsorbent sampler, and then analysed by thermal desorption-gas chromatography. The effects of the volume of the pressurised gas, the gas flow rate and the mass of the soil sample on the recovery efficiency and breakthrough from the adsorbent trap were investigated in a preliminary characterisation study. Two distinct approaches were identified. The first involved ventilation of the voids within the soil matrix to displace the soil-gas headspace, a rapid screening approach. The second involved a more prolonged purge of the matrix to strip reversibly bound species into the gas phase and hence pass them into the adsorbent trap, a purge and trap approach. The shortest possible sample processing time required to yield analytically useful responses was 5 s with the use of the headspace approach. In this case n-octane, benzene and toluene were recovered from conditioned spiked soil samples at concentrations in the range 42 to 1690 mg kg(-1). The limit of detection for the system was estimated to be no greater than 1.2 mg kg(-1). Using the purge and trap variant enabled recovery efficiencies greater than 93% to be achieved with liquid spikes of n-octane onto soil samples. These preliminary studies showed that a system based on this approach would need to balance recovery efficiency, time and analyte breakthrough from the adsorbent trap" |
| Keywords: | "Chromatography, Gas/instrumentation/methods Electronic Data Processing/*methods Environmental Monitoring/instrumentation/*methods Organic Chemicals/*analysis Soil Pollutants/*analysis;" |
| Notes: | "MedlineMeniconi, Maria de Fatima Guadalupe Parris, R Thomas, C L P eng England 2003/12/12 Analyst. 2003 Oct; 128(10):1232-7. doi: 10.1039/b306623a" |
