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Odours in Asphalt: Analysis of the Release of H 2 S from Bitumen by a Mass Spectrometric Residual Gas Analyser.

Marcello MonteleoneGiuseppe Di LucaMarcello FilomiaAlessio FuocoAlberto FigoliJohannnes Carolus Jansen
Published in: Methods and protocols (2024)
During the production and laying phases of hot-mixing asphalt (HMA), various volatile organic compounds (VOCs) and noxious gases such as H 2 S are released into the atmosphere. These emissions are a serious environmental problem, a risk to human health, and expose workers and residents to unfriendly odours. The aim of this study was the development of a fast and sensitive analytical method to detect the H 2 S emitted from hot bituminous binder that is generally used in the various stages of asphalt production, processing, handling and during road construction. The method consisted in the analysis of evolved H 2 S from a flask with molten bitumen, using nitrogen as a carrier gas to lead the volatile compounds into a residual gas analyser equipped with a quadrupole mass spectrometer. The analysis was performed following the H 2 S-specific signals at m / z 33 (HS + ) and at m / z 34 (H 2 S + ) in real time, directly on the sample without laborious and expensive pre-treatments and with short response times (<6 s). Calibration with a standard mixture of 1000 ppm of H 2 S in nitrogen allows semi-quantitative H 2 S detection. The sensitivity and rapidity of the method were evaluated by quenching the release of sulphur compounds with commercial odour-suppressing agents. Upon addition of 0.1% of additive in two minutes, the H 2 S signal drops about 80% in two minutes, confirming the good response of the method, even with a very complex matrix.
Keyphrases
  • human health
  • risk assessment
  • room temperature
  • high resolution
  • mass spectrometry
  • climate change
  • liquid chromatography
  • signaling pathway
  • heavy metals
  • life cycle
  • low cost
  • real time pcr