Phd Defense by Hanyan Li

Event Details
  • Date/Time:
    • Wednesday August 7, 2019
      9:30 am - 11:30 am
  • Location: Sustainable Education Building 122
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Summaries

Summary Sentence: A Framework for Optimizing Public Transit Bus Fleet Conversion to Alternative Fuels

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School of Civil and Environmental Engineering

 

Ph.D. Thesis Defense Announcement

A Framework for Optimizing Public Transit Bus Fleet Conversion to Alternative Fuels

 

By

Hanyan Li

 

Advisor:

Dr. Randall Guensler (CEE)

 

Committee Members:

Dr. Michael O. Rodgers (CEE), Dr. Karti Watkins (CEE), Dr. Haobing Liu (CEE), Dr. Enlu Zhou (ISYE), Dr. Oscar Delgado (International Council on Clean Transportation)

 

Date & Time: Wednesday, August 7, 2019 – 9:30am

Location: Sustainable Education Building 122

Alternative fuel buses (hybrid-electric, battery-electric, compressed natural gas, etc.) have great potential to reduce life-cycle energy use and criteria pollutant emissions from urban and rural transit fleets.  However, market penetration of alternative fuel transit buses in the U.S. is currently below 50%.  There are a number of barriers that discourages switching from traditional diesel vehicles.  Alternative fuel buses have higher capital costs, and the uncertainty associated with fuel savings and potential increases in maintenance costs make it challenging to estimate the time to recover capital investments (whereas diesel vehicle costs are well-known).  Discrepancies between the claimed fuel economy and real-world performance under variable and diverse traffic conditions, roadway configurations, and designated routings contribute to economic uncertainty.  Some vehicles, such as battery-electric buses and even some hybrid-electric buses, have significant range and performance constraints (maximum speed and acceleration rates under load) that prevent their use on certain routes.
 
This study develops an analytical framework to automatically generate optimal plans for fleet operations and conversion based on fleet-specific characteristics.  The goal of the framework is to allow agencies to minimize the fleet-wide energy use, life-cycle CO2 emissions, and/or economic costs when transitioning to alternative fuels.  Energy use are modeled using advanced tools based on real-world second-by-second operations data.  Machine learning models are developed by using vehicle-specific and operating-related features, and then applied to assess the fleet-wide energy use.  Cost changes of adopting alternative fuel vehicles are evaluated comprehensively.
 
The framework includes three sets of optimization models, focusing on optimizing existing fleet operations, fleet electrification, and long-term fleet conversion.  Decisions are optimized for annual fleet purchase/replacement of different vehicle types, vehicle-route assignment, vehicle-depot assignment, charging scheduling, and/or charging station/depot location selection.  The proposed models are applied to the bus fleet from Metropolitan Atlanta Rapid Transit Authority (MARTA), the largest transit agency in Metro Atlanta.

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Phd Defense
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  • Created By: Tatianna Richardson
  • Workflow Status: Published
  • Created On: Jul 24, 2019 - 9:23am
  • Last Updated: Jul 24, 2019 - 9:23am