Direct remote sensing of vehicle exhaust emissions under real-world driving conditions is desirable for a number of reasons, including: identifying high emitters, investigating the chemical composition of the exhaust, and probing fast reactions in the plume. A novel remote sensor, incorporating IR and UV dispersive spectrometers, was developed. Emissions from a fleet of vehicles powered by a range of fuels (gasoline, diesel, natural gas, and methanol) were tested. The exhaust from 'hot' gasoline- and methanol-powered cars contained high levels of NH3, up to 1500 ppm. These emissions were up to 14 times higher than the corresponding N0x emissions. Subsequent on-road remote sensing measurements on over 4,500 vehicles showed that NH3 emissions follow a y-distribution, with 10 % of the fleet being responsible for 66 % of the total emissions. Mean NH3 emissions for the measured fleet were 78.6 ppm, significantly higher than previously estimated.
Multi-component remote sensing of vehicle exhaust by dispersive absorption spectroscopy
2000
9 Seiten, 6 Bilder, 3 Tabellen, 36 Quellen
Conference paper
English
Multi-Component Remote Sensing of Vehicle Exhaust by Dispersive Absorption Spectroscopy
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