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Many communities would be better off investing in electric vehicles that run on batteries instead of hydrogen fuel cells, in part because the hydrogen infrastructure provides few additional energy benefits for the community besides clean transportation.
That's according to a study in the November issue of the journal Energy by scientists at Stanford University and the Technical University of Munich (TUM). They compared cars that run on batteries versus hydrogen fuel cells in a hypothetical future where the cost of electric vehicles is more affordable.
"We looked at how large-scale adoption of electric vehicles would affect total energy use in a community, for buildings as well as transportation," said lead author Markus Felgenhauer, a doctoral candidate at TUM and former visiting scholar at the Stanford Global Climate and Energy Project (GCEP). "We found that investing in all-electric battery vehicles is a more economical choice for reducing carbon dioxide emissions, primarily due to their lower cost and significantly higher energy efficiency."
"Studies such as these are needed to identify the lowest cost and most efficient pathways to deep decarbonization of the global energy system," added study co-author Sally Benson, a professor of energy resources engineering at Stanford and director of GCEP.
Batteries vs. fuel cells
Electric vehicles come in two flavors: plug-in cars with rechargeable batteries, and fuel cell vehicles that convert hydrogen gas into clean electricity.
Unlike gasoline-powered cars, battery and fuel cell vehicles emit zero carbon when driven. But deploying them at scale will require a costly new infrastructure for charging batteries or delivering hydrogen fuel.
A key question for policymakers is, which transportation technology cuts total emissions at the lowest cost -- batteries or fuel cells? Beyond transportation, could hydrogen technology also provide clean energy for heating and lighting buildings, as some research suggests?
The new study is the first to address both questions.
The researchers focused on California, a leader in electric vehicle transportation. Statewide, battery electric cars are growing in popularity. But only a few manufacturers have begun offering fuel cell vehicles. To encourage wider adoption, the state has awarded more than $92 million for a network of 50 hydrogen-refueling stations by 2017.
Currently, neither energy source is entirely emissions free. Some people charge their battery electric cars by plugging into the power grid, which delivers electricity generated largely from carbon-emitting fossil fuels.
Likewise, most hydrogen fuel is derived from natural gas through an industrial process that emits carbon dioxide as a byproduct. An alternative device, called an electrolyzer, uses solar-generated electricity to split water into clean hydrogen and oxygen, but the technique is very energy intensive and expensive.
In the study, the researchers created future scenarios for the Town of Los Altos Hills, a sunny, affluent community of about 8,000 residents located in Santa Clara County just a few miles from the Stanford campus.
"Los Altos Hills is distinguished by an unusually high solar-generation capacity in the county with the highest share of electric vehicles in the state," said Felgenhauer.
The scenarios focused on 10 to 20 years in the future, when battery and fuel cell vehicles are expected to be in much wider use, and when solar power and electrolyzers are cost competitive with the electric grid.
One scenario for the year 2035 assumed that electric vehicles would constitute 38 percent of the town's vehicle fleet. It also assumed that fuel cell vehicles would be powered by locally produced hydrogen made with the cheapest available electricity, be it solar generated or obtained from the grid.
Data about Los Altos Hills was fed to a computational model developed by study co-author Thomas Hamacher, a professor of electrical and computer engineering at TUM.
"We provided data on the amount of energy Los Altos Hills needs throughout the day, as well as financial data on the cost of building new energy infrastructures," said study coauthor Matthew Pellow, a former GCEP postdoctoral scholar now with the Electric Power Research Institute. "We included the cost of making solar panels, electrolyzers, batteries and everything else.
Then we told the model, given our scenario for 2035, tell us the most economical way to meet the total energy demand of the community."
To compare each scenario's costs to its climate benefits, the researchers also calculated the carbon dioxide emissions produced in each case.
The researchers also assessed the potential benefits of using the hydrogen infrastructure to store clean energy for use on demand. During daylight hours, electrolyzers can produce hydrogen from surplus solar power that would otherwise go to waste. That hydrogen can be stored and converted into renewable electricity, or used as a clean alternative to natural gas to heat and light buildings.