On the Pressure and Temperature Dependence of the Absorption Coefficient of NH<sub>3</sub>

Aousgi, F.; Hadded, S.; Aroui, H.

doi:10.1155/2011/816548

Cited by 2 publications

(6 citation statements)

References 16 publications

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“…The broadening effects are different for each band and also vary from the center of the band to its sides. 19 They were more dramatic at the C−H bending region (ca. 1600−1200 cm −1 ), where the bands at 1250 and 1350 cm −1 doubled their absorbance.…”

Section: Resultsmentioning

confidence: 99%

Improved Sensitivity of Natural Gas Infrared Measurements Using a Filling Gas

et al. 2019

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European trends to get greener cities and protect the environment imply substituting traditional diesel/gasoline engines for gas (gas-hybrid) powered engines. To accomplish this, straightforward quality control of liquefied and/or compressed natural gas is needed. This communication shows that the broadening effect of an auxiliary inert gas (Ar) enhances their infrared (IR) gaseous spectra and improves usual analytical performance parameters by 50%, which paves the way to use IR routinely to assess the composition of natural gas samples.

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Section: Resultsmentioning

confidence: 99%

Improved Sensitivity of Natural Gas Infrared Measurements Using a Filling Gas

et al. 2019

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“…The target concentration of N 2 O in the bag was decided to be 400 and 600 ppb depending on the trend of N 2 O emission from most recent LDVs. 18,19 Concentration of CO and CO 2 were kept within 100–300 ppm and 1%–2%, respectively, also based on co-existence of these components in the real exhaust gas. Different concentrations of N 2 O, CO, and CO 2 were achieved by blending these three span gases with nitrogen at different ratios.…”

Section: Experiments Resultsmentioning

confidence: 99%

“…Therefore, at elevated temperature, gas absorbs more of lights and less light is transmitted. [18][19][20] With fewer transmitted lights, it becomes difficult to measure low concentration of gas as the signal to noise increases.…”

Section: Sampling Under Vacuum and Low Temperaturementioning

confidence: 99%

“…Individual absorption pulse widths are sensitive to intermolecular collisions and become broader with increasing pressure. [18][19][20] Therefore, total absorption across a band per mole of absorber increases with the gas pressure. A broader spectrum has higher risks of interference by the co-existing gases.…”

Section: Sampling Under Vacuum and Low Temperaturementioning

confidence: 99%

“…On the other hand, at high temperature, the transmittance becomes low due to higher kinetic energy of the gas molecules. [18][19][20] Based on experience, the cell pressure is selected at a significant vacuum of 0.25 atm and moderate gas temperature of 50°C in this study. A PID control loop is used to keep the cell and sample line temperature constant.…”

Section: Sampling Under Vacuum and Low Temperaturementioning

confidence: 99%

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Measurement of automobile N₂O from bag and continuous stream by quantum cascade laser spectroscopy

Rahman¹,

Rooney²,

Hara

et al. 2018

International Journal of Engine Research

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N 2 O emission from automobile has been regulated by the United States Environment Protection Agency due to its higher global warming potential compared to CO 2. Responding to this, an instrument for fast sensing of ultra-low concentration of N 2 O from automobile has become an urgent need. In this study, an instrument based on the quantum cascade laser spectroscopy has been developed and applied for certification testing of ultra-low N 2 O in automobile exhaust. The pulsed quantum cascade laser can emit coherent lights in the mid-infrared region where N 2 O shows strong absorption and better control of wavelength. Therefore, a very low detection limit can be achieved and interference of co-existing gases can be avoided using a super fine resolution of the mid-infrared spectrum. The US Code of Federal Regulations Parts 1065/1066 allows measuring N 2 O from sample storage bags, from a continuous dilute stream or a raw exhaust stream. Typically, batch (bag) sampling has better accuracy and repeatability, but continuous sampling is more efficient in terms of test cell running time and provides test-mode emissions. In this study, the quantum cascade laser analyzer has been applied to investigate correlations between bag sampling and continuous dilute exhaust sampling using a fleet of vehicles with a wide range of N 2 O emission levels all meeting United States Environment Protection Agency emission standards. Very good correlation between these two sampling methods was observed for the majority of tests conducted and in best case the difference was less than 61%. The direct injection gasoline vehicle emits higher N 2 O than conventional port injection gasoline vehicles. The quantum cascade laser analyzer has been successfully applied for United States Environment Protection Agency N 2 O certification test.

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On the Pressure and Temperature Dependence of the Absorption Coefficient of NH₃

Cited by 2 publications

References 16 publications

Improved Sensitivity of Natural Gas Infrared Measurements Using a Filling Gas

Improved Sensitivity of Natural Gas Infrared Measurements Using a Filling Gas

Measurement of automobile N₂O from bag and continuous stream by quantum cascade laser spectroscopy

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On the Pressure and Temperature Dependence of the Absorption Coefficient of NH3

Cited by 2 publications

References 16 publications

Improved Sensitivity of Natural Gas Infrared Measurements Using a Filling Gas

Improved Sensitivity of Natural Gas Infrared Measurements Using a Filling Gas

Measurement of automobile N2O from bag and continuous stream by quantum cascade laser spectroscopy

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Product

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On the Pressure and Temperature Dependence of the Absorption Coefficient of NH₃

Measurement of automobile N₂O from bag and continuous stream by quantum cascade laser spectroscopy