Flow immune photoacoustic sensor for real-time and fast sampling of trace gases

A photoacoustic (PA) sensor for fast and real-time gas sensing is demonstrated. The PA cell has been designed for flow noise immunity using computational fluid dynamics (CFD) analysis. PA measurements were conducted at different flow rates by exciting molecular C-H stretch vibrational bands of hexane (C6H14) in clean air at 2950cm-1 (3.38 μm) with a custom made mid-infrared interband cascade laser (ICL). The PA sensor will contribute to solve a major problem in a number of industries using compressed air by the detection of oil contaminants in high purity compressed air. We observe a (1σ, standard deviation) sensitivity of 0.4 ±0.1 ppb (nmol/mol) for hexane in clean air at flow rates up to 2 L/min, corresponding to a normalized noise equivalent absorption (NNEA) coefficient of 2.5×10-9 W cm-1 Hz1/2, thus demonstrating high sensitivity and fast and real-time gas analysis. The PA sensor is not limited to molecules with C-H stretching modes, but can be tailored to measure any trace gas by simply changing the excitation wavelength (i.e. the laser source) making it useful for many different applications where fast and sensitive trace gas measurements are needed.

[1]  Jun Ye,et al.  Cavity-enhanced optical frequency comb spectroscopy: application to human breath analysis. , 2008, Optics express.

[2]  David Smith,et al.  Mass spectrometry for real-time quantitative breath analysis , 2014, Journal of breath research.

[3]  Jan C Petersen,et al.  Off-axis quartz-enhanced photoacoustic spectroscopy using a pulsed nanosecond mid-infrared optical parametric oscillator. , 2016, Optics Letters.

[4]  R. Tatam,et al.  Optical gas sensing: a review , 2012 .

[5]  Wolfgang Schade,et al.  LED-Absorption-QEPAS Sensor for Biogas Plants , 2015, Sensors.

[6]  Albert Manninen,et al.  Transversely Excited Multipass Photoacoustic Cell Using Electromechanical Film as Microphone , 2010, Sensors.

[7]  R. Bartlome,et al.  Trace gas monitoring with infrared laser-based detection schemes , 2008 .

[8]  M. Sigrist Trace gas monitoring by laser photoacoustic spectroscopy and related techniques (plenary) , 2003 .

[9]  H Christopher Frey,et al.  On-Road Measurement of Vehicle Tailpipe Emissions Using a Portable Instrument , 2003, Journal of the Air & Waste Management Association.

[10]  Jari Peltola,et al.  Parts-per-trillion-level detection of nitrogen dioxide by cantilever-enhanced photo-acoustic spectroscopy. , 2015, Optics letters.

[11]  Jan C Petersen,et al.  A versatile integrating sphere based photoacoustic sensor for trace gas monitoring. , 2014, Optics express.

[12]  M. Lassen,et al.  Photo-acoustic sensor for detection of oil contamination in compressed air systems , 2016, 2017 Conference on Lasers and Electro-Optics (CLEO).

[13]  Markus W. Sigrist,et al.  Mobile laser spectrometer with novel resonant multipass photoacoustic cell for trace-gas sensing , 2000 .

[14]  D. C. Dumitras,et al.  Laser photoacoustic spectroscopy: principles, instrumentation, and characterization , 2007 .

[15]  D. Iannuzzi,et al.  Demonstration of a highly sensitive photoacoustic spectrometer based on a miniaturized all-optical detecting sensor. , 2017, Optics express.

[16]  S. Cristescu,et al.  Photoacoustic Spectroscopy in Trace Gas Monitoring , 2000, Encyclopedia of Analytical Chemistry.

[17]  Huadan Zheng,et al.  Beat frequency quartz-enhanced photoacoustic spectroscopy for fast and calibration-free continuous trace-gas monitoring , 2017, Nature Communications.