Advanced carbon and sulfur analyzer for inorganic materials
On white paper completely new designed, this high-precision CS analyzer for metallic or ceramic materials uses only state-of-the-art technologies. It is equipped with a long-life solid-state high-frequency induction furnace, which makes it possible to reach sample temperatures of up to 2000 °C. Thanks to an optional camera the gas release can be observed in real-time by the operator. Also for the element detection advanced technologies are used. Carbon and sulfur are both analyzed by wide-range IR detectors, which are capable to detect the whole concentration range. Thus, little impurities in the ppm-range and higher concentrations of some percentages by weight are detectable.
Dissolved carbon and nitrogen isotope analysis on the highest level
Based on the “cube” platform that has set the gold standard for elemental analysis, theiso TOC cube is a new concept for the quantitative and isotopic determination of dissolved carbon and nitrogen in liquids and slurries.
The simultaneous determination of dissolved δ13C and δ15N at concentrations as low as 0.2 ppm and 10 ppm, respectively, are easily achieved with the vario iso TOC cube. For the first time the high sensitivity for measuring TOC or TNb in aqueous solutions is combined with the accuracy and reliability of organic elemental analysis to automatically measure up to 100% carbon concentrations in matrices ranging from dilute glacial meltwaters to aggressive soil extracts. Oxidation of bound carbon and nitrogen by means of high temperature digestion and catalytic post combustion in a free selectable range of up to 1,200 °C, with reduction of nitrogen oxides to N2 for determination by IRMS.
With measuring modes for the isotopic analysis of TC/TIC, DOC, TC/TIC/TNb or DOC/TNb. Formed CO2 and N2 are purified through a halogen trap with subsequent 3-step intensive gas drying system, and a newly developed matrix separation system (patent pending) that allows multiple injections of difficult matrices (such as seawater). CO2 is detected by a super wide range NDIR-photometer with extraordinary linearity prior to peak focusing of both CO2 and N2 on individual temperature programmed desorption columns (patent pending) to achieve the high-level performance required for IRMS measurement.
Carbon isotopes of TC/TIC, DOC
Nitrogen isotopes of TNb
Carbon and nitrogen isotopes of TC/TIC/TNb, DOC/TNb