Four-color fiber-coupled mid-infrared laser-absorption sensor for temperature, CO, CO2, and NO at 5  kHz in internal combustion engine vehicle exhaust

Stiborek, Joshua W.; Schwartz, Charles J.; Kempema, Nathan J.; Szente, Joseph J.; Loos, Michael J.; Goldenstein, Christopher S.

doi:10.1364/ao.504122

Appl. Opt.

2023

DOI: 10.1364/ao.504122

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Four-color fiber-coupled mid-infrared laser-absorption sensor for temperature, CO, CO₂, and NO at 5 kHz in internal combustion engine vehicle exhaust

Joshua W. Stiborek,

Charles J. Schwartz,

Nathan J. Kempema

et al.

Abstract: A mid-infrared (MIR) laser absorption spectroscopy (LAS) sensor was developed for temperature, CO, NO, and CO2 measurements at 5 kHz in engine-out exhaust. It used fiber-coupled quantum cascade lasers (QCLs) for measuring CO and NO, and an interband cascade laser (ICL) for measuring CO2. Validation tests in a heated gas cell confirmed that the LAS measurements of CO, CO2, NO, and temperature are accurate to within 4.8%, 5.1%, 4.6%, and 3.1%, respectively, at 1–2 atm and 300–1000 K. The LAS sensor was applied t… Show more

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2024

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Determination of Air–Fuel Ratio at 1 kHz via Mid-Infrared Laser Absorption and Fast Flame Ionization Detector Measurements in Engine-Out Vehicle Exhaust

Stiborek,

Kempema,

Schwartz

et al. 2024

Engines

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<div>Measurements of air–fuel ratio (AFR) and λ (AFRactual/AFRstoich) are crucial for understanding internal combustion engine (ICE) performance. However, current λ sensors suffer from long light-off times (on the order of seconds following a cold start) and limited time resolution. In this study, a four-color mid-infrared laser absorption spectroscopy (LAS) sensor was developed to provide 5 kHz measurements of temperature, CO, CO2, and NO in engine-out exhaust. This LAS sensor was then combined with 1 kHz hydrocarbon (HC) measurements from a flame ionization detector (FID), and the Spindt exhaust gas analysis method to provide 1 kHz measurements of λ. To the authors’ knowledge, this is the first time-resolved measurement of λ during engine cold starts using the full Spindt method. Three tests with various engine AFR calibrations were conducted and analyzed: (1) 10% lean, (2) stoichiometric, and (3) 10% rich. The measurements were acquired in the exhaust of a light-duty truck with an 8-cylinder gasoline engine. The LAS-FID-based λ sensor results were compared with those obtained from a universal exhaust gas oxygen (UEGO) sensor. The LAS-FID method provided robust λ measurements from the first combustion exhaust event (avoiding the light-off time associated with traditional λ sensors) in addition to enhanced temporal resolution (on the order of 100× increase compared to traditional diffusion-based λ sensors). The insight gained from this novel method could be used to benefit crank, cold start, and open- or closed-loop air–fuel ratio control strategies in gasoline engines for reduced emissions.</div>

show abstract

Determination of Air–Fuel Ratio at 1 kHz via Mid-Infrared Laser Absorption and Fast Flame Ionization Detector Measurements in Engine-Out Vehicle Exhaust

Stiborek,

Kempema,

Schwartz

et al. 2024

Engines

View full text Add to dashboard Cite

show abstract

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Four-color fiber-coupled mid-infrared laser-absorption sensor for temperature, CO, CO₂, and NO at 5 kHz in internal combustion engine vehicle exhaust

Cited by 1 publication

References 33 publications

Determination of Air–Fuel Ratio at 1 kHz via Mid-Infrared Laser Absorption and Fast Flame Ionization Detector Measurements in Engine-Out Vehicle Exhaust

Determination of Air–Fuel Ratio at 1 kHz via Mid-Infrared Laser Absorption and Fast Flame Ionization Detector Measurements in Engine-Out Vehicle Exhaust

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