State-of-the-Art of Establishing Test Procedures for Real Driving Gaseous Emissions from Light- and Heavy-Duty Vehicles

Air pollution caused by vehicle emissions has raised serious public health concerns. Vehicle emissions generally depend on many factors, such as the nature of the vehicle, driving style, traffic conditions, emission control technologies, and operational conditions. Concerns about the certification cycles used by various regulatory authorities are growing due to the difference in emission during certification procedure and Real Driving Emissions (RDE). Under laboratory conditions, certification tests are performed in a ‘chassis dynamometer’ for light-duty vehicles (LDVs) and an ‘engine dynamometer’ for heavy-duty vehicles (HDVs). As a result, the test drive cycles used to measure the automotive emissions do not correctly reflect the vehicle’s real-world driving pattern. Consequently, the RDE regulation is being phased in to reduce the disparity between type approval and vehicle’s real-world emissions. According to this review, different variables such as traffic signals, driving dynamics, congestions, altitude, ambient temperature, and so on have a major influence on actual driving pollution. Aside from that, cold-start and hot-start have been shown to have an effect on on-road pollution. Contrary to common opinion, new technology such as start-stop systems boost automotive emissions rather than decreasing them owing to unfavourable conditions from the point of view of exhaust emissions and exhaust after-treatment systems. In addition, the driving dynamics are not represented in the current laboratory-based test procedures. As a result, it is critical to establish an on-road testing protocol to obtain a true representation of vehicular emissions and reduce emissions to a standard level. The incorporation of RDE clauses into certification procedures would have a positive impact on global air quality.

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The rise of real drive emission to mitigate difference of lab tests and on-road emission

10.31224/osf.io/devgz ◽

2020 ◽

Author(s):

S M Ashrafur Rahman ◽

I.M.R. Fattah ◽

TM Indra Mahlia ◽

Fajle Rabbi Ashik ◽

Mohammad Mahmudul Hassan ◽

...

Keyword(s):

Real World ◽

Vehicle Emissions ◽

Positive Influence ◽

Exhaust Emission ◽

Test Drive ◽

The Real ◽

Operational Conditions ◽

Certification Procedure ◽

Control Technologies ◽

Light Duty Vehicles

Air pollution caused by vehicle emissions has drawn serious concern about public health. Vehicle emissions generally depend on many factors viz. nature of the vehicle, driving style, traffic conditions, emission control technologies, and operational conditions. There is an increasing concern about the certification cycles used by various regulatory authorities. This is due to the fact that exhaust emission certification procedure is carried out in chassis dynamometer for light-duty vehicles and in engine dynamometer for heavy-duty vehicles under laboratory conditions. As a result, the test drive cycles used to measure the vehicle emissions do not represent the real-world driving pattern of the vehicle. Consequently, the Real Driving Emissions (RDE) legislation is being introduced gradually to reduce the gap between type-approval vehicle emissions results and those in the real-world. To measure the key pollutants during driving vehicles are fitted with Portable Emission Measuring Systems (PEMS) that monitors those in real-time. The inclusion of RDE provisions to certification procedure will have a positive influence on the overall air quality of the world.

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Variability in Real-World Activity Patterns of Heavy-Duty Vehicles by Vocation

Transportation Research Record Journal of the Transportation Research Board ◽

10.1177/0361198119844247 ◽

2019 ◽

Vol 2673 (9) ◽

pp. 51-61 ◽

Cited By ~ 1

Author(s):

George Scora ◽

Kanok Boriboonsomsin ◽

Thomas D. Durbin ◽

Kent Johnson ◽

Seungju Yoon ◽

...

Keyword(s):

Real World ◽

Motor Vehicle ◽

Activity Patterns ◽

Geographical Area ◽

Food Distribution ◽

Vehicle Emission ◽

Heavy Duty ◽

Mobile Source ◽

Vehicle Activity ◽

Heavy Duty Vehicles

Vehicle activity is an integral component in the estimation of mobile source emissions and the study of emission inventories. In the Environmental Protection Agency’s (EPA’s) Motor Vehicle Emission Simulator (MOVES) model and the California Air Resources Board’s (CARB’s) Emission Factor (EMFAC) model, vehicle activity is defined for source types, in which vehicles within a source type are assumed to have the same activity. In both of these models, source types for heavy-duty vehicles are limited in number and the assumption that the activity within these source types is similar may be inaccurate. The focus of this paper is to improve vehicle emission estimates by improving characterization of heavy-duty vehicle activity using vehicle vocation. This paper presents results and analysis from the collection of real-world activity data of 90 vehicles from 19 vehicle categories made up from a combination of vehicle vocation, gross vehicle weight, and geographical area— namely, line haul—out of state; line haul—in state; drayage—Northern California; drayage—Southern California; agricultural—Southern Central Valley; heavy construction; concrete mixers; food distribution; beverage distribution; local moving; airport shuttle; refuse; urban buses; express buses; freeway work; sweeping; municipal work; towing; and utility repair. Results show that real-world activity patterns of heavy-duty vehicles vary greatly by vocation and in some cases by geographic region. Vocation-specific activity information can be used to update assumptions in EPA’s MOVES model or CARB’s EMFAC model to address this variability in emission inventory development.

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