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N 2 O-Measurement Methods Folie 1 Nitrous Oxide/Laughing Gas Molar mass: 44,013 kg/kmol Gas density at 0°C and 1,013 bar: 1,9781 kg/m³ Gas density in relation.

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Presentation on theme: "N 2 O-Measurement Methods Folie 1 Nitrous Oxide/Laughing Gas Molar mass: 44,013 kg/kmol Gas density at 0°C and 1,013 bar: 1,9781 kg/m³ Gas density in relation."— Presentation transcript:

1 N 2 O-Measurement Methods Folie 1 Nitrous Oxide/Laughing Gas Molar mass: 44,013 kg/kmol Gas density at 0°C and 1,013 bar: 1,9781 kg/m³ Gas density in relation to air: 1,5299 Boiling point at 1,013 bar: -88,5 °C Vapor pressure at 20°C: 50,599 bar Contribution to anthropogenic greenhouse effect today app. 5% (Source: Ravishankara AR, Science, October 2009)Ravishankara AR Contribution of on road traffic to anthropogenic N2O-emissions in the US 2007: 9,7% Contribution of agriculture: 71,4% (Source: EPA-Report 2009, page 66)EPA-Report 2009  Contribution of N2O from on road traffic to anthropogenic greenhouse effect <0,5%!

2 N 2 O-Measurement Methods Folie 2 N 2 O in ambient Measurement station of German Umweltbundesamt at Schneefernerhaus/Zugspitze

3 N 2 O-Measurement Methods Folie 3 Definitions  LoD (Limit of Detection) The LoD is the smallest quantity that can be reliably (99%) distingushed from zero DIN32645 / Skoog&Leary „Principles of Instrumental Analysis“: LoD = avg. (blank) + 3 x std. dev. (blank)  LoQ (Limit of Quantification) Das LoQ is the smallest quantity at which two different concentrations can be distinguished reliably. DIN32645: LoQ= 3 x LoD or LoQ=10 x std. dev. (blank) Skoog&Leary „Principles of Instrumental Analysis“: LoQ=10 x std. dev. (blank)  Interpretation of the Values according DIN32645 ResultInterpretationfurther Information x < LoDNot measured< 2 x LoD LoD <= x < LoQmeasured LoQ <= xSufficientWithin confidence region

4 N 2 O-Measurement Methods Folie 4 Requirements for a reliable measurement method  actual emission limit for N 2 O: 0,010 g/mi  measurement from bag  non or quasi continuous measurement is sufficient  For a reliable measurement of air bag LoQ has to be at 300ppb (typicall background concentration)  LoD has to be in the order of 30 ppb  No or little cross interference at typical bag concentrations:  an offset of 0,1ppm in the measurement of te air bag results in a 30% error at limit level 2,5% CO220ppm THC 2,5% H2O5ppm CH4 200ppm CO5ppm NOx

5 N 2 O-Measurement Methods Folie 5 EPA-legislation allows four types of analyzers for N 2 O: (Source: § 86.167-12 N2O measurement devices) RangeLoDResolutionRising time (T 10 -T 90 ) Sample rate Cross sensitivity NDIR> 10ppm0,3ppmCO, CO 2, H 2 O FTIR0,05ppm Photoacoustic analyzer 0,03ppm0,05-0,2HzCO, CO 2, H 2 O Gas chromatography analyzer -- QCL analyzer*100- 10000ppm 0,20-10ppm0,01ppm<2s (planned <1s) 10Hz Mass Spectrometer* CO 2 *QCL-analyzer and mass spectrometer are not mentioned in EPA-legislation Not applicable due to massive CO 2 interference

6 N 2 O-Measurement Methods Folie 6 infrared source sample chamberfilterinfrared detector reference chamber chopper Standard method Simple operation Simple integration into existing benches Advantages High cross sensitivities Mathematical correction necessary LoD not sufficient Disadvantages CO2 H2O CO (NO, HC, SO2) Cross Sensitivity NDIR The main components are an infrared source, a sample chamber or light tube, a wavelength filter, and the infrared detector. The gas is pumped into the sample chamber, and gas concentration is measured electro-optically by its absorption of a specific wavelength in the infrared (IR). The IR light is directed through the sample chamber towards the detector. In parallel there is an other chamber with an enclosed reference gas, typically nitrogen. The detector has an optical filter in front of it that eliminates all light except the wavelength that the selected gas molecules can absorb. Ideally other gas molecules do not absorb light at this wavelength, and do not affect the amount of light reaching the detector.

7 N 2 O-Measurement Methods Folie 7 Limited experience in the range below 1 ppm Querempfindlichkeit FTIR Limited experience with bag measurement Needs liquid nitrogen Disadvantages Theoretically high LoD Less cross interference as compared to NDIR Advantages

8 N 2 O-Measurement Methods Folie 8 Photoacoustic spectroscopy is the measurement of the effect of absorbed electromagnetic energy (particularly of light) on matter by means of acoustic detection. Photoacoustic spectroscopy has become a powerful technique to study concentrations of gases at the part per billion levels. Photoacoustic analyzer CO2 H2O CO Cross Sensitivity High cross sensitivities Slow Mathematical correction necessary Limited experience Stability seems not suffucient Disadvantages LoD is sufficient Advantages

9 N 2 O-Measurement Methods Folie 9 Gas chromatography analyzer (GC) Low LoD No cross sensitivities Advantages - Cross Sensitivity No devices for use in analyzer bench available Sample has to be brought to lab Slow Disadvantages

10 N 2 O-Measurement Methods Folie 10 Quantum cascade laser analyzer Fast Advantages not known Cross Sensitivity No experience Disadvantages Sample gas is fed into the gas cell and a laser pulse irradiates into the gas cell. The laser radiation emitted as continuous pulse is detected after a multiple reflection between two mirrors in the gas cell. From it’s inherent design and control, the wavelength of QCL radiation slightly varies with time therefore it is possible to scan the constant width of the wavelength in a particular region. If there is no gas component in the cell which absorbs within the predetermined scanning wavelength band, a time resolved spectrum as shown in Figure 1(b-1) is observed. On the other hand, when there is a gas component which offers absorption in the band, a time resolved spectrum as shown in Figure 1(b-2) is observed. According to the Beer-Lambert law, absorbance is proportional to the concentration of gas. So, the gas concentration can be obtained from the absorption spectrum with a predetermined correlation (source: Horiba)

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