Optimisation and validation of Plume Chasing for robust and automated NOx and particle vehicle emission measurements

Optimisation and validation of Plume Chasing for robust and automated NOx and particle vehicle emission measurements

High-emitting vehicles comprise a small proportion (<20%) of the vehicle fleet, yet are responsible for the majority (>50%) of vehicle emissions. Plume Chasing is a reliable, high-precision measurement technique that derives emissions without interfering with the vehicle being tested. Its char...

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Bibliographic Details
Main Authors: Christina Schmidt, C. David Carslaw, J. Naomi Farren, N. René Gijlswijk, Markus Knoll, E. Norbert Ligterink, Jan Pieter Lollinga, Martin Pechout, Stefan Schmitt, Michal Vojtíšek, Quinn Vroom, Denis Pöhler
Format: Article
Language:English
Published: Elsevier 2025-01-01
Series:Atmospheric Environment: X
Subjects:
Plume Chasing
Remote emission sensing
Real-world vehicle emissions
High-emitter identification
Interfering emission sources
NOx and PM measurements
Online Access:http://www.sciencedirect.com/science/article/pii/S2590162125000073
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Summary:High-emitting vehicles comprise a small proportion (<20%) of the vehicle fleet, yet are responsible for the majority (>50%) of vehicle emissions. Plume Chasing is a reliable, high-precision measurement technique that derives emissions without interfering with the vehicle being tested. Its characteristics make it well suited for high emitter identification. In this study, the influence of several Plume Chasing measurement and data processing methods on the results of derived on-road NOx and particle fuel-specific emission factors are investigated. A range of vehicles, representative of a common vehicle fleet, were tested under different driving conditions on a test track. The derived results were evaluated against on-board SEMS (Smart Emission Measurement System) emission measurements. We found that one of the best performing Plume Chasing data processing methods is based on the use of a rolling minimum for background determination. The average absolute deviation of the determined NOx/CO2 emission ratios from the reference was −0.2(46)ppm/% for the heavy duty vehicle and 0.3(29)ppm/% for the light duty vehicles tested. The methods were easy to automate and suitable for high emitter detection and quantification of emissions from two-wheeled vehicles. Inaccurate emission factors derived from Plume Chasing measurements occurred only in situations when emissions were significantly influenced by a strong plume from vehicles driving directly ahead of the vehicle of interest.
ISSN:2590-1621

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