Modeling transitions in the California light-duty vehicles sector to achieve deep reductions in transportation greenhouse gas emissions

• Published in: Energy policy Vol. 44; pp. 52 - 67
• Main Authors: Leighty, Wayne, Ogden, Joan M., Yang, Christopher
• Format: Journal Article
• Language: English
• Published: Kidlington Elsevier Ltd 01.05.2012; Elsevier; Elsevier Science Ltd
• Subjects: Adoption of innovations; Advanced vehicles; Air pollution; Air pollution caused by fuel industries; Alternative fuels; Applied sciences; Availability; Biofuels; California; Carbon; Carbon emissions; Change agents; Demand; Diesel fuels; Economic data; Electric vehicles; Electricity; Electrification; Emissions; Emissions control; Energy; Energy economics; Energy policy; Energy. Thermal use of fuels; Exact sciences and technology; Fossil fuels; Fuel economy; Fuels; Gasoline; General, economic and professional studies; Greenhouse effect; greenhouse gas emissions; Greenhouse gases; Ground, air and sea transportation, marine construction; issues and policy; Low-carbon future; Markets; Metering. Control; Natural energy; Petrol; Reduction; Renewable energy sources; Resource availability; Road transportation and traffic; Studies; Technological change; Transportation; Transportation industry; Transportation planning, management and economics; Travel; U.S.A; Vehicle emissions; Vehicles; California; United States; North America; America; United States > US; USA, California; Advanced vehicles; Alternative fuels; Low-carbon future; Script; Pollution control; Pollution prevention; Lightweight vehicle; Biofuel; Electric vehicle; Market penetration; Pollutant emission; Long term; Modeling; 2050; Case study; Road transportation; Greenhouse gas; Environment impact; Technological change
• ISSN: 0301-4215; 1873-6777
• DOI: 10.1016/j.enpol.2012.01.013

California’s target for reducing economy-wide greenhouse gas (GHG) emissions is 80% below 1990 levels by 2050. We develop transition scenarios for meeting this goal in California’s transportation sector, with focus on light-duty vehicles (LDVs). We explore four questions: (1) what options are available to reduce transportation sector GHG emissions 80% below 1990 levels by 2050; (2) how rapidly would transitions in LDV markets, fuels, and travel behaviors need to occur over the next 40 years; (3) how do intermediate policy goals relate to different transition pathways; (4) how would rates of technological change and market adoption between 2010 and 2050 impact cumulative GHG emissions? We develop four LDV transition scenarios to meet the 80in50 target through a combination of travel demand reduction, fuel economy improvements, and low-carbon fuel supply, subject to restrictions on trajectories of technological change, potential market adoption of new vehicles and fuels, and resource availability. These scenarios exhibit several common themes: electrification of LDVs, rapid improvements in vehicle efficiency, and future fuels with less than half the carbon intensity of current gasoline and diesel. Availability of low-carbon biofuels and the level of travel demand reduction are “swing factors” that influence the degree of LDV electrification required. ► We model change in California LDVs for deep reduction in transportation GHG emissions. ► Reduced travel demand, improved fuel economy, and low-carbon fuels are all needed. ► Transitions must begin soon and occur quickly in order to achieve the 80in50 goal. ► Low-C biofuel supply and travel demand influence the need for rapid LDV electrification. ► Cumulative GHG emissions from LDVs can differ between strategies by up to 40%.