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Decarbonizing US passenger vehicle transport under electrification and automation uncertainty has a travel budget

Journal Article · · Environmental Research Letters
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Abstract

The transportation sector is at the beginning of a transition represented by electrification, shared mobility, and automation, which could lead to either increases or decreases in total travel and energy use. Understanding the factors enabling deep decarbonization of the passenger vehicle sector is essential for planning the required infrastructure investments and technology adoption policies. We examine the requirements for meeting carbon reduction targets of 80% and higher for passenger vehicle transport in the United States (US) by midcentury under uncertainty. We model the changes needed in vehicle electrification, electricity carbon intensity, and travel demand. Since growth in fleet penetration of electric vehicles (EVs) is constrained by fleet stock turnover, we estimate the EV penetration rates needed to meet climate targets. We find for a base case level of passenger vehicle travel, midcentury deep decarbonization of US passenger transport is conditional on reducing the electricity generation carbon intensity to close to zero along with electrification of about 67% or 84% of vehicle travel to meet decarbonization targets of 80% or 90%, respectively. Higher electricity generation carbon intensity and degraded EV fuel economy due to automation would require higher levels of fleet electrification and/or further constrain the total vehicle travel allowable. Transportation deep decarbonization not only depends on electricity decarbonization, but also has a total travel budget, representing a maximum total vehicle travel threshold that still enables meeting a midcentury climate target. This makes encouraging ride sharing, reducing total vehicle travel, and increasing fuel economy in both human-driven and future automated vehicles increasingly important to deep decarbonization.

Sponsoring Organization:
USDOE
OSTI ID:
1660477
Alternate ID(s):
OSTI ID: 1660478
Journal Information:
Environmental Research Letters, Journal Name: Environmental Research Letters Journal Issue: 9 Vol. 15; ISSN 1748-9326
Publisher:
IOP PublishingCopyright Statement
Country of Publication:
United Kingdom
Language:
English

References (42)

The liquid carbon challenge: evolving views on transportation fuels and climate: The liquid carbon challenge journal July 2014
Scenarios that illuminate vulnerabilities and robust responses journal October 2012
Long-term trends in domestic US passenger travel: the past 110 years and the next 90 journal July 2015
Cost and benefit estimates of partially-automated vehicle collision avoidance technologies journal October 2016
Net-societal and net-private benefits of some existing vehicle crash avoidance technologies journal April 2019
Forecasting the Impact of Connected and Automated Vehicles on Energy Use: A Microeconomic Study of Induced Travel and Energy Rebound journal August 2019
The impact of federal incentives on the adoption of hybrid electric vehicles in the United States journal November 2013
Heterogeneity in the response to gasoline prices: Evidence from Pennsylvania and implications for the rebound effect journal December 2015
Long-term transport energy demand and climate policy: Alternative visions on transport decarbonization in energy-economy models journal January 2014
Impact of battery weight and charging patterns on the economic and environmental benefits of plug-in hybrid vehicles journal July 2009
Achieving deep reductions in US transport greenhouse gas emissions: Scenario analysis and policy implications journal December 2009
Modeling transitions in the California light-duty vehicles sector to achieve deep reductions in transportation greenhouse gas emissions journal May 2012
Limiting global warming to 2 °C: What do the latest mitigation studies tell us about costs, technologies and other impacts? journal November 2016
Analyzing the transition to electric drive vehicles in the U.S. journal April 2014
A Process for Capturing CO2 from the Atmosphere journal August 2018
Is Uber a substitute or complement for public transit? journal November 2018
A review of LCA greenhouse gas emissions results for advanced biofuels: The use of meta-regression analysis journal October 2013
Hydrogen: A sustainable fuel for future of the transport sector journal November 2015
The environmental impact of Li-Ion batteries and the role of key parameters – A review journal January 2017
The effect of uncertainty on US transport-related GHG emissions and fuel consumption out to 2050 journal March 2012
Help or hindrance? The travel, energy and carbon impacts of highly automated vehicles journal April 2016
Just a better taxi? A survey-based comparison of taxis, transit, and ridesourcing services in San Francisco journal January 2016
The travel and environmental implications of shared autonomous vehicles, using agent-based model scenarios journal March 2014
Fuel economy testing of autonomous vehicles journal April 2016
Carsharing’s life-cycle impacts on energy use and greenhouse gas emissions journal August 2016
Decomposing passenger transport futures: Comparing results of global integrated assessment models journal August 2017
Well-to-Wheels Greenhouse Gas Emissions of Canadian Oil Sands Products: Implications for U.S. Petroleum Fuels journal June 2015
Analysis of Costs and Time Frame for Reducing CO 2 Emissions by 70% in the U.S. Auto and Energy Sectors by 2050 journal September 2017
Life Cycle Assessment of Connected and Automated Vehicles: Sensing and Computing Subsystem and Vehicle Level Effects journal February 2018
A Review on Energy, Environmental, and Sustainability Implications of Connected and Automated Vehicles journal September 2018
Reducing Motor Vehicle Greenhouse Gas Emissions in a Non-California State: A Case Study of Minnesota journal December 2009
Energy system transformations for limiting end-of-century warming to below 1.5 °C journal May 2015
Autonomous taxis could greatly reduce greenhouse-gas emissions of US light-duty vehicles journal July 2015
Committed emissions from existing energy infrastructure jeopardize 1.5 °C climate target journal July 2019
Evaluation of a proposal for reliable low-cost grid power with 100% wind, water, and solar journal June 2017
Expert assessments of the cost and expected future performance of proton exchange membrane fuel cells for vehicles journal February 2019
Shared ride services in North America: definitions, impacts, and the future of pooling journal June 2018
Evaluating the US Mid-Century Strategy for Deep Decarbonization amidst early century uncertainty journal September 2016
Assessing the evolution of power sector carbon intensity in the United States journal June 2018
Vehicle fleet turnover and the future of fuel economy journal February 2019
Carbon neutral hydrocarbons
  • Zeman, Frank S.; Keith, David W.
  • Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, Vol. 366, Issue 1882 https://doi.org/10.1098/rsta.2008.0143
journal August 2008
Transport Pathways for Light Duty Vehicles: Towards a 2° Scenario journal April 2013

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