Analytical Instrumentation

A comprehensive stability study on the Xplorer Total Sulfur/Total Nitrogen analyzers

May 18 2022

Author: Sebastian Sanchez on behalf of TE Instruments

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An elemental combustion analyzer is able to measure the amount of Total Nitrogen, and Total Sulfur by means of high-temperature combustion (approximately 1000 ˚C) in an oxygen-rich environment. In Trace Elemental combustion elements can be detected from trace level (µg/kg/ ppb level) up to 10.000 ppm/ mg/L (1%) there where the elemental analyzers for CHNSO are mainly designed for a high-level percentage measuring range.

By combusting sample material (Solid, Liquid or Gas), NO and SO2 are formed which can be detected by a Pulsed UV-Fluorescence followed by a Chemiluminescence detector.
Our quartz combustion tube is constructed in such a way that it allows direct injection of the sample into the heated oxidation zone of the furnace and/or to accommodate the sample introduction using a quartz sample boat. The surface of the oxidation section of the combustion tube must be large enough to ensure complete oxidation of the sample. However, some elemental combustion analyzer manufacturers pack the quartz combustion tube with an oxidation catalyst to achieve this.
The XPLORER Series does not make use of oxidation catalyst: The unique construction of the Xplorer combustion tubes is designed in such a way, to always deliver sufficient oxidation power on samples that are difficult to combust.
More recently, ceramic material has been introduced as an alternative to fully quartz combustion tubes, for better protection of the tube when running samples containing high halogen concentrations (or other components which might attack the quartz material).  

Detection of Total Nitrogen – Chemiluminescence
When Nitrogen components are combusted in the high-temperature furnace, the following reaction takes place:
R - N+ O2  NO + H2O + CO2  
After complete sample oxidation, the combustion gas is conditioned by removing water vapor and particles.
Ozone is added to the conditioned gas stream in the Chemiluminescence reaction chamber. Ozone reacts with Nitric Oxide (NO) to form Nitrogen Dioxide in an excited state (NO2*). The emitted light is detected by a Photomultiplier Tube (PMT). The amount of detected emitted light corresponds with the amount of NO (Total Nitrogen) present in the sample.
Detection:
NO + O3  NO2* + O2
NO2* NO2  +  hv1  

Detection of Total Sulfur –
UV-Fluorescence
When organic Sulfur components are combusted in the high-temperature furnace, the following reaction takes place:
R-S + O2 → SO2 + H2O + CO2  
After complete sample oxidation, the combustion gas is conditioned by removing water vapor and particles.
The conditioned gas stream containing the Sulfur Dioxide (SO2) molecules is transferred to the reaction chamber. The Xenon flashed UV lamp will excite the Sulfur Dioxide molecules to SO2* at specific wavelengths and due to the unstable character of the SO2* it will relax back to SO2 instantly. The released energy will be emitted in the form of light and will be detected by the Photomultiplier Tube (PMT). The amount of light emitted equals the total amount of SO2 (Total Sulfur) present in the sample.
Detection:
SO2+ hv1 → SO2*  
SO2*  →  SO2  + hv2   

 

Stability study setup

The following Xplorer elemental combustion analyzers have been used to perform the analysis of Total Nitrogen (CLD) and Total Sulfur (UV-F):
- Xplorer TN/TS         Horizontal furnace based setup
- Xplorer-V TN/TS        Vertical furnace based setup
All samples were introduced by direct liquid injection with either the Archie autosampler (combined with Horizontal Xplorer TN/TS) or the integrated liquid autosampler of the Xplorer-V. Basic standard method parameters were applied to the 3 sample matrices (see systems settings below). The samples were analyzed daily on the two systems for the duration of three months.  
No calibration or re-calibration was applied to the setup during the 3 months stability study. Other than small minor maintenance tasks (replacing needles, replacing septum or refilling of solvents) no intervention was allowed to check potential drift or stability issues on the furnace, detectors and complete analyzer setup.  


Summary

During a run time of 3 months, both analyzers showed excellent stability over the complete course. As mentioned, only minor maintenance actions were allowed (e.g. needle changes, septa and filters) both systems were running on their initial calibration lines during the course of the test.
For the evaluation of the data, Tier 3 regulations for the calculation of system stability were applied to all the results,  more information can be found in ASTM 7039. In the document, an R factor is calculated according to systematic standard deviation and averages, which results in maximal allowed limits for both accuracy and precision.
See section “results” for more in-depth information concerning the outcome of the study.  

 

Calibration

Standards used for calibration were made from Pyridine (N) and Dibutyl Sulfide (S) in Iso-Octane. The Xplorer analyzers are calibrated in the range 0,1-10 mg/L and 1-100 mg/L. All calibration points have been corrected for the average blank area count.
Sulfur: Calculated final Tier 3 results for precision and accuracy on Sulfur, 90 day run

 

 

 

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