Vehicle Real-World Emissions Measurement: Methods
New Methods for Measuring Real-World Activity, Energy Use, and Emissions of Vehicles
This research developed foundational and widely-cited methodologies for measuring vehicle emissions and fuel use under real-world driving conditions using Portable Emission Measurement Systems (PEMS). A key innovation was the use of these on-board instruments to collect second-by-second data, providing the first accurate characterization of vehicle activity, fuel use, and emissions in real-world scenarios, including the effects of road grade and different driving styles. This work provided a critical empirical basis for the development of modern mobile source emissions models like MOVES.
Illustrative papers (selected examples):
Frey, H.C., A. Unal, N.M. Rouphail, and J.D. Colyar, “On-Road Measurement of Vehicle Tailpipe Emissions Using a Portable Instrument,” Journal of Air & Waste Manage. Assoc., 53(8):992-1002 (August 2003).
Zhang, K., and H.C. Frey, “Evaluation of Response Time of a Portable System for In-Use Vehicle Tailpipe Emissions Measurements,” Environmental Science and Technology, 42(1), 221–227 (2008).
Road Grade
Zhang, K., and H.C. Frey, “Road Grade Estimation for On-Road Vehicle Emissions Modeling Using LIDAR Data,” Journal of the Air & Waste Management Association, 56(6):777-788 (June 2006).
Yazdani, B., H.C. Frey, and G.S. Sandhu, “Road Grade Measurement Using In-Vehicle, Stand-Alone GPS with Barometric Altimeter,” ASCE Journal of Transportation Engineering, 139(6):605-611 (2013).
Yazdani, B., and H.C. Frey, “Road Grade Quantification Based on Global Positioning System Data Obtained from Real-World Vehicle Fuel Use and Emission Measurements,” Atmospheric Environment, 85:179-186 (March 2014).
Procedures and Study Design
Sandhu, G.S., and H.C. Frey, “Effects of Errors on Vehicle Emission Rates from Portable Emissions Measurement Systems,” Transportation Research Record, 2340:10-19 (2013). DOI:10.3141/2340-02.
Lee, T., and H.C. Frey, “Evaluation of Representativeness of Site-Specific Fuel-based Vehicle Emission Factors for Area-wide Average Emissions,” Environmental Science and Technology, 46(12):6867–6873 (2012). DOI: 10.1021/es204451z.
Liu, B., and H.C. Frey, “Quantification and Application of Real-World Light Duty Vehicle Performance Envelope for Speed and Acceleration,” Transportation Research Record, 2503:128-136. DOI: 10.3141/2503-14 (2015).
Wei, T., and H.C. Frey, “Sensitivity of light duty vehicle tailpipe emission rates from simplified portable emission measurement systems to variation in engine volumetric efficiency,” Journal of the Air & Waste Management Association, 71:9, 1127-1147 (2021). https://doi.org/10.1080/10962247.2021.1923586