Atmospheric Measurement Techniques (Apr 2010)

<i>&mu;</i>Dirac: an autonomous instrument for halocarbon measurements

  • S. E. Yong,
  • H. M. Newton,
  • G. P. Mills,
  • D. E. Oram,
  • L. M. O'Brien,
  • N. R. P. Harris,
  • B. Gostlow,
  • A. D. Robinson,
  • J. A Pyle

DOI
https://doi.org/10.5194/amt-3-507-2010
Journal volume & issue
Vol. 3, no. 2
pp. 507 – 521

Abstract

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We describe a new instrument (μDirac) capable of measuring halocarbons in the atmosphere. Portability, power efficiency and autonomy were critical design requirements and the resulting instrument can be readily deployed unattended on a range of platforms: long duration balloon, aircraft, ship and ground-based stations. The instrument is a temperature programmed gas chromatograph with electron capture detector (GC-ECD). The design requirements led to μDirac being built in-house with several novel features. It currently measures a range of halocarbons (including short-lived tracers having biogenic and anthropogenic sources) with measurement precision relative standard deviations ranging from ± 1% (CCl4) to ± 9% (CH3I). The prototype instrument was first tested in 2005 and the instrument has been proved in the field on technically challenging aircraft and ground-based campaigns. Results from an aircraft and a ground-based deployment are described.