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IEA Technology Network Cooperation: Fuel and Technology Alternatives for Buses: Overall Energy Efficiency and Emissions

Journal Article
2012-01-1981
ISSN: 1946-391X, e-ISSN: 1946-3928
Published September 24, 2012 by SAE International in United States
IEA Technology Network Cooperation: Fuel and Technology Alternatives for Buses: Overall Energy Efficiency and Emissions
Sector:
Citation: Koponen, K. and Nylund, N., "IEA Technology Network Cooperation: Fuel and Technology Alternatives for Buses: Overall Energy Efficiency and Emissions," SAE Int. J. Commer. Veh. 5(2):515-533, 2012, https://doi.org/10.4271/2012-01-1981.
Language: English

Abstract:

In 2009 - 2011, a comprehensive project on urban buses was carried out in cooperation with IEA's Implementing Agreements on Alternative Motor Fuels and Bioenergy, with input from additional IEA Implementing Agreements. The objective of the project was to generate unbiased and solid data for use by policy- and decision-makers responsible for public transport using buses. The project comprised four major parts: (1) a well-to-tank (WTT) assessment of alternative fuel pathways, (2) an assessment of bus end-use (tank-to-wheel, TTW) performance, (3) combining WTT and TTW data into well-to-wheel (WTW) data and (4) a cost assessment, including indirect as well as direct costs.
Experts at Argonne National Laboratory, Natural Resources Canada and VTT worked on the WTT part. In the TTW part, Environment Canada and VTT generated emission and fuel consumption data by running 21 different buses on chassis dynamometers, generating data for some 180 combinations of vehicle, fuel and driving cycle. The fuels covered included diesel, synthetic diesel, various types of biodiesel fuels, additive treated ethanol, methane and DME. Six different hybrid vehicles were included in the vehicle matrix. The TTW work was topped off by on-road measurements (AVL MTC) as well as some engine dynamometer work (von Th√ľnen Institute).
Over the last 15 years, tightening emission regulations and improved engine and exhaust after-treatment technology have reduced regulated emissions by a factor of 10:1 and particulate numbers with a factor of 100:1. Hybridization or light-weighting reduce fuel consumption 20 - 30%, but otherwise the improvements in fuel efficiency have not been so spectacular. The driving cycle affects regulated emissions and fuel consumption by a factor of 5:1. The fuel effects are at maximum 2.5:1 for regulated emissions (particulates), but as high as 100:1 for WTW greenhouse emissions. WTW energy use varies with a factor on 2.5:1.