1 / 1

Carbon and nitrogen analysis using HiPerTOC/TN b

Carbon and nitrogen analysis using HiPerTOC/TN b. TOC analysis . Methods for TOC. After oxidation, carbon dioxide is measured using two infrared detectors (one x10 more sensitive than the other). Figure 2 shows a typical carbon signal measured using the ozone assisted UV persulphate method.

Sophia
Download Presentation

Carbon and nitrogen analysis using HiPerTOC/TN b

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Carbon and nitrogen analysis using HiPerTOC/TNb TOC analysis Methods for TOC After oxidation, carbon dioxide is measured using two infrared detectors (one x10 more sensitive than the other). Figure 2 shows a typical carbon signal measured using the ozone assisted UV persulphate method. The HiPerTOC/TNb (Figure 1) analyser is used to measure total carbon (TC), total organic carbon (TOC), total inorganic carbon (TIC) and total nitrogen (TN) in water samples. Within the HiPerTOC/TNb are four main analytical methodologies for analysing carbon and nitrogen in water samples: - a high temperature reactor oxidizes carbon to CO2 at either 680oC with a catalyst or 1000oC without a catalyst. - a UV-persulphate method whereby sodium persulphate is used to create hydroxyl radicals which, under the influence of UV light decompose carbon - an ozone assisted UV-persulphate method decomposes samples includes the use of ozone in the decomposition of carbon compounds. - an ultrapure UV method, in which no reagent is added and hydroxyl molecules are formed from oxygen under the influence of UV-light. The choice of method for analysis of TOC depends on the sample matrix. High temperature combustion is particularly suitable for non-saline samples with highly resistant carbon. UV-persulphate method is recommended for non-saline dissolved carbon samples. The ozone assisted UV persulphate method is recommended for samples with high salt content to prevent chloride interference with the reaction. The ultrapure UV method is used where very low levels of carbon are analysed. Projects using the HiPerTOC/TNb • We use the HiPerTOC/TNb analyser to analyse carbon and nitrogen in a wide range of samples, including: • estuarine samples • marine porewater samples • small volume (< 200 ml) samples • groundwater and drinking water samples • soil porewaters Examples of research at QMUL Figure 2. HiPerTOC software showing 50 mg l-1 carbon peak Dr Kate Heppell is investigating the transport of organic carbon during storm flows in a small upland catchment in Exmoor. Preliminary results show that dissolved organic carbon (DOC) transport varies considerably over storm events (Figure 3). This can give us valuable clues to the sources of DOC and transport paths through the catchment. TC/TOC analysis Total carbon (TC) can be analysed by any of the four techniques above. To analyse TOC hydrochloric acid must first be added to samples to samples to remove any inorganic carbon. TIC analysis Total inorganic carbon (TIC) can be analysed by adding hydrochloric acid to samples within the UV reactor. This converts carbonates to CO2 which is measured as above. TN analysis Nitrogen is also released from organic matter decomposition using the high temperature combustion technique. Gases leaving the infrared detector are fed into a nitrogen detector. Figure 1. The Thermo HiPerTOC and Total Nitrogen analyser in the Physical Geography laboratories Figure 3. R. Holne, dissolved organic carbon concentrations during a storm event (October 2006).

More Related