Evaluation of GHG Emission across Transit Bus Technologies with Real-World Driving Schedules

This study investigates life-cycle greenhouse gas (GHG) emissions in different bus technologies with a Public Transit Greenhouse Gas Emissions Management Calculator (hereafter the Calculator) and selected driving schedules at Knoxville, Tennessee area. A range of methodologies to estimate GHG emissions from various categories of transit agency activities have been integrated into the Calculator which has been funded by the Federal Transit Administration. To estimate the direct emissions, a method with the operating mode bins, based on scaled tractive power of MOtor Vehicle Emissions Simulator (MOVES), has been implemented in the Calculator. Parameters including driving schedule, road grade, and passenger load, were specified for the estimation. Load-based life-cycle GHG emissions with five predefined driving cycles in eight combinations of powertrain and fuel types, including conventional diesel bus, compressed nature gas (CNG) bus, parallel and series hybrid buses, battery bus, fuel cell bus, plug-in fuel cell bus, and plug-in hybrid bus, were compared and the results show that driving schedules have impacts on the estimated emissions. In comparison to findings from other studies, the selected Knoxville Area Transit (KAT) driving schedules are estimated to have lower carbon dioxide (CO2) equivalent emissions with hybrid technology and higher emissions with the conventional diesel, CNG, and fuel cell technologies. Sensitivity analysis of passenger loading parameter with different bus technologies and driving schedules has been demonstrated. Findings and recommendations include (1) transit agencies have better to conduct the evaluation with their own local conditions; (2) battery bus has the lowest emissions in most of the scenarios investigated; (3) the mass of CO2 equivalent emissions per mile is a good indication for the evaluation; (4) route length does not matter in the analysis; (5) the passenger loading parameter affects the emissions in bus technologies differently.

• Supplemental Notes:
  • This paper was sponsored by TRB committee AP020 Emerging and Innovative Public Transport and Technologies.
• Corporate Authors:

  Transportation Research Board

  500 Fifth Street, NW
  Washington, DC  United States  20001
• Authors:
  • Li, Jan-Mou
  • Lin, Zhenhong
  • LaClair, Tim
  • Davidson, Diane
  • Xu, Ann
  • Guensler, Randall L
  • Rodgers, Michael O
  • Lee, Dong-Yeon
• Conference:
  • Transportation Research Board 93rd Annual Meeting
  • Location: Washington DC
  • Date: 2014-1-12 to 2014-1-16
• Date: 2014

Language

• English

Media Info

• Media Type: Digital/other
• Features: Figures; References; Tables;
• Pagination: 15p
• Monograph Title: TRB 93rd Annual Meeting Compendium of Papers

Subject/Index Terms

• TRT Terms: Bus transit; Buses; Buses by motive power; Carbon dioxide; Greenhouse gases; Pollutants; Schedules
• Identifier Terms: Motor Vehicle Emission Simulator (MOVES)
• Uncontrolled Terms: Passenger loads
• Geographic Terms: Knoxville (Tennessee)
• Subject Areas: Energy; Environment; Public Transportation; Vehicles and Equipment; I15: Environment;

Filing Info

• Accession Number: 01516574
• Record Type: Publication
• Report/Paper Numbers: 14-0680
• Files: TRIS, TRB, ATRI
• Created Date: Feb 28 2014 1:32PM