Efficiently and unobtrusively being able to screen for trace amounts of explosives on airline passengers should improve travel safety – without invoking the ire of inconvenienced fliers.
That is the goal and now a mechanical engineer and fluid dynamicist, Matthew Staymates of the National Institute of Standards (NIST) and Technology in Gaithersburg, MD, along with his team, is developing a prototype air sampling system that can quickly blow particles off the surfaces of shoes and suck them away for analysis.
The engineers developed several different versions of the system.
“One particular device is a kiosk-style instrument that people step into, never having to physically remove their shoes for sampling,” Staymates said. “Air jets are located in strategic locations and used to dislodge particles from the shoe surface, and a large blower establishes a bulk flow field that ensures all liberated particles are transported in the appropriate direction.”
In order for it to see use in a commercial environment, the sampling system – which can collect particles in just 6 to 7 seconds – would have to combine with a particle collection device and a chemical analyzer, Staymates said.
“Incorporating a particle collection device and chemical analyzer would certainly be possible in the current prototype, but it was outside of the scope of the project. NIST’s role was to uncover the fundamental connection between fluid dynamics and trace aerodynamic sampling, and use our findings to help in the development of next-generation sampling approaches.”
Creating a finished marketable device, he said, is “a job for private industry.”