Fast GC-PFPD System for Field Analysis of Chemical Warfare Agents

Gad Frishman, Aviv Amirav

Research output: Contribution to journalArticlepeer-review

30 Scopus citations

Abstract

A fast gas chromatograph (GC) equipped with a pulsed-flame photometric detector (PFPD) was designed and built with the intention of facilitating field analysis of the full range of chemical warfare agents (CWA). This GC-PFPD system was tested with five organophosphorus and organosulfur CWA simulants that cover the volatility range of common CWA. Fast repetitive analysis was demonstrated with a cycle time as short as 30 s, combined with very low detection limits of 20 ng/m3 for organophosphorus CWA simulants and 200 ng/m3 for organosulfur compounds. With a longer analysis time of 80 s, a 3-ng/m3 detection limit was demonstrated for DMMP. In the GC-PFPD system, the separation power of each of these techniques is orthogonal and independent; thus, this hyphenated combination is characterized by a very low false-alarm rate, combined with CWA identification capability at the molecular level. The large improvement in system selectivity is demonstrated in the direct analysis of a low level of triethylphosphate in the headspace of diesel fuel without any interference. The system inlet was heated and the sample path was inert without any metal, enabling fast response time and low detection limits for a low volatility agent such as VX. The same fast GC-PFPD system could also be quickly and easily switched to a continuous sampling "sniff" mode of operation with 2-s response time. Alternatively, it could be operated in a novel mode of thermally modulated inlet (TMI) that provided intermediate results between those of GC and "sniff" in terms of the trade-off of response time and performance. The fast GC-PFPD system is also characterized by low average hydrogen consumption (about 4 ml/min), small size, and low weight. No attempt was made to complete the system in terms of portable control electronics. The advantages and unique features of this system, as well as the importance of CWA identification at the molecular level, are discussed.

Original languageEnglish
Pages (from-to)170-194
Number of pages25
JournalField Analytical Chemistry and Technology
Volume4
Issue number4
DOIs
StatePublished - 1 Jan 2000

Keywords

  • CWA
  • Chemical warfare agents
  • Fast GC
  • PFPD
  • Pulsed flame photometric detector

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