A field portable membrane introduction mass spectrometer with in-line standard infusion and sample heat exchanger for real-time monitoring of volatile organic compounds in aqueous samples

A field portable membrane introduction mass spectrometer with in-line standard infusion and sample heat exchanger for real-time monitoring of volatile organic compounds in aqueous samples

Maintaining a steady sample temperature when analyzing real-time samples in the field is crucial for Membrane Introduction Mass Spectrometry (MIMS). Diffusion through the membrane interface is temperature dependent, and sample temperature might vary depending on the sample source. In order to reduce...

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Bibliographic Details
Published in:Environmental chemistry and ecotoxicology Vol. 2; pp. 168 - 174
Main Authors: Martinsen, Morten R., Davey, Nicholas G., Bell, Ryan J., Krogh, Erik T., Gill, Chris G., Mikkelsen, Øyvind, Schmid, Rudolf
Format: Journal Article
Language:English
Published: Elsevier B.V 2020
KeAi Communications Co., Ltd
Subjects:
Membrane introduction mass spectrometry (MIMS)
Mobile mass spectrometry
On-site contaminant analysis
Sample stream heat exchanger
VOC
Water contamination
Membrane introduction mass spectrometry (MIMS)
Sample stream heat exchanger
Mobile mass spectrometry
VOC
On-site contaminant analysis
Water contamination
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Summary:Maintaining a steady sample temperature when analyzing real-time samples in the field is crucial for Membrane Introduction Mass Spectrometry (MIMS). Diffusion through the membrane interface is temperature dependent, and sample temperature might vary depending on the sample source. In order to reduce this source of inaccuracy, an in-field and online continuous monitoring system based on (MIMS) coupled with a heat exchanger and in-line standard addition was developed for monitoring volatile organic compounds (VOC) in actual field samples. Parametric studies of the heat exchanger have been conducted in the laboratory. In order to maintain control on instrumental signal drift during continuous, long-term analysis periods, the system used continuous infusion of internal standard (tuloene-d8) into the sample stream and also provided the possibility to infuse, in the same way, an analyte for standard addition calibration. This set-up has been utilized in the field for analyzing both natural water sources and heavily polluted process water. The system was demonstrated to offer a rapid method for quantifying volatile hazardous pollutants in aqueous matrices with good time-resolution. •An in-field membrane introduction mass spectrometry system has been equipped with a countercurrent-flow heat-exchanger.•Optimized parameters with respect to stability and heating power savings were found.•Continuous infusion of toluene d8 provided stable inline internal standard calibration.•The continuous infusion of toluene d8 also compensates for potential analyte signal drift.•The system has been successfully tested in the field for on-line determinations of VOCs in aqueous samples in the µg/L range.•Analyses by MIMS of grab samples from oil process water were in good agreement with conventional laboratory analyses.
ISSN:2590-1826
2590-1826
DOI:10.1016/j.enceco.2020.09.003