Mid-infrared sensor for hydrocarbon monitoring : the Influence of salinity, matrix and aging on hydrocarbon- polymer partitioning

Erstveröffentlichung
2018-02-14
Wissenschaftlicher Artikel
Autoren
Stach, Robert
Pejcic, Bobby
Heath, Charles
Myers, Matthew
Mizaikoff, Boris
Fakultäten
Fakultät für NaturwissenschaftenInstitutionen
Institut für Analytische und Bioanalytische ChemieErschienen in
Analytical methods ; 10 (2018), 13. - S. 1516-1522. - ISSN 1759-9660. - eISSN 1759-9679
Link zur Originalveröffentlichung
https://dx.doi.org/10.1039/C7AY02874APeer-Review
ja
Dokumentversion
acceptedVersion
Zusammenfassung
Mid-infrared sensors (MIR) based on attenuated total reflection (ATR) spectroscopy provide a robust and
sensitive platform for the detection of low levels of organic molecules dissolved in water. The chemical
and partitioning properties of the polymer membrane play an important role and are crucial to MIR-ATR
sensor performance. Although the MIR-ATR sensor has been used to quantify dissolved hydrocarbons in
a wide range of aquatic environments, very little is reported on the impact of aqueous solution composition and polymer membrane aging on the hydrocarbon – polymer partitioning process. In the
present study we investigated a number of factors that may affect the sensor sensitivity and analytical
performance during quantification of hydrocarbons in water. Calibration curves were obtained as
a function of salinity and it was revealed that the response factors are generally higher in the presence of
salts. We show that reliable hydrocarbon analysis can be achieved in water provided that the sensor is
calibrated using appropriate standard solutions and corrected for salinity/ionic strength variations. Sensor
measurements were also performed over a range of crude oil – water mixtures, and these studies revealed that the total petroleum hydrocarbon concentration in solution (between the 0 and 20 ppm range) has a negligible effect on the analyte-polymer partitioning process. In terms of sensor durability, the polymerfilm displayed remarkable repeatability and long-term stability in water over a two-month testing period .
EU-Projekt
SCHEMA / INTEGRATED IN SITU CHEMICAL MAPPING PROBES / EC / FP7 / 614002
Normierte Schlagwörter
Infrarotdetektor [GND]Salzgehalt [GND]
Detectors [LCSH]
Hydrocarbons; Research [LCSH]
Salinity [LCSH]
Schlagwörter
Mid-infrared sensor; Hydrocarbon monitoring; Hydrocarbon-polymer partitioningDDC-Sachgruppe
DDC 540 / Chemistry & allied sciencesMetadata
Zur LanganzeigeZitiervorlage
Stach, Robert et al. (2019): Mid-infrared sensor for hydrocarbon monitoring : the Influence of salinity, matrix and aging on hydrocarbon- polymer partitioning. Open Access Repositorium der Universität Ulm. http://dx.doi.org/10.18725/OPARU-11880