Less attention has been paid to the development of hydrogen fuelled cars and even less to plans already in place to construct hydrogen economies. THE GENERALIST investigates. Our story begins with the earliest known hydrogen fuel cell vehicle.
1966
1966 GM Electrovan prototype cutaway MOTORTREND [Nov 1, 2016] |
In 1966, General Motors Engineering Staff outfitted a forward-control GMC Handivan with a fuel-cell propulsion system. Though fuel cells had been in use since the early 1800s, GM was first to use one in a vehicle. The company had been experimenting with electric vehicles and was looking to combine the electric motor with a longer-range, faster refueling source of electricity.
The Electrovan's remarkably power-dense (for the time) fuel cell supplied a continuous output of about 32 kW that could peak at about 160 kW. It was made up of 32 thin-electrode modules connected in series. The motor and powertrain controller were mounted under and between the front seats. Also under the floor were the 32 fuel cell modules interconnected by some 550 feet of plastic piping. The "fuel" storage was pretty unique: cryogenic hydrogen and oxygen tanks and an electrolyte reservoir mounted behind the middle bench seat. That one contained some 45 gallons of potassium hydroxide that filled the modules, piping, and reservoir. Just the electrolyte weighed 550 pounds; the whole van? A stout 7,100 pounds.
Nevertheless, the Electrovan could hit 70 mph, accelerating to 60 in 30 seconds. Overall range was a pretty impressive 150 miles. Because of safety concerns, the Electovan was only driven under its own power on GM-owned property. Shortly after it was built, tested, and unveiled to the press in 1966, the project was scrapped due to cost concerns. The bill for the platinum in the fuel cell would cover the purchase of a fleet of Handivans, and then as now there was no real viable hydrogen infrastructure in place.
2001-2002
National Hydrogen Energy Vision and Roadmap
In response to recommendations within the National Energy Policy, the US Department of Energy (DOE) organized a November 2001 meeting of 50 visionary business leaders and policymakers to formulate a National Hydrogen Vision. A National Vision of America’s Transition to a Hydrogen Economy – to 2030 and Beyond was published in February 2002 as a result of the Hydrogen Vision Meeting. This document summarizes the potential role for hydrogen systems in America’s energy future, outlining the shared vision of the market transformation.
In April 2002, DOE followed up with a larger group of over 200 technical experts from industry, academia, and the national laboratories to develop a National Hydrogen Energy Roadmap. This roadmap, released in November 2002, describes the principal challenges to be overcome and recommends paths forward to achieve the vision.*
The FreedomCAR partnership
In January 2002, the FreedomCAR Partnership was established as a research and development collaboration between the Department of Energy and the U.S. Council for Automotive Research (USCAR), a partnership formed by Ford Motor Company, Chrysler Corporation, and General Motors Corporation.
In September 2003, the Partnership was expanded to the FreedomCAR and Fuel Partnership by bringing the major energy companies (BP America, Chevron Corporation, ConocoPhillips, ExxonMobil Corporation and Shell Hydrogen) to the group.
In June 2008, the Partnership was expanded to include two utilities, DTE Energy and Southern California Edison.
In May 2011, the Partnership was expanded once again to include the Electric Power Research Institute and Tesla Motors and was renamed U.S. DRIVE Partnership (U.S. DRIVE) where DRIVE represents Driving Research and Innovation in Vehicle efficiency and Energy sustainability.
Review of the Research Program of the FreedomCAR and Fuel Partnership
Third Report (2010) National Academies Press
See also: https://afdc.energy.gov/files/pdfs/freedomcar_plan.pdf
2003
President Bush's Hydrogen Fuel Initiative, January 28th
In his State of the Union speech, President George W. Bush put forth his hydrogen fuel initiative:
- "Tonight I am proposing $1.2 billion in research funding so that America can lead the world in developing clean, hydrogen-powered automobiles."
"A simple chemical reaction between hydrogen and oxygen generates energy, which can be used to power a car producing only water, not exhaust fumes. With a new national commitment, our scientists and engineers will overcome obstacles to taking these cars from laboratory to showroom so that the first car driven by a child born today could be powered by hydrogen, and pollution-free. Join me in this important innovation to make our air significantly cleaner, and our country much less dependent on foreign sources of energy."
Bush touts benefits of hydrogen fuel
Cites risk in reliance on 'foreign sources' of oil
CNN Report [Extracts]. Full text hereWASHINGTON (CNN) -- The United States can change its dependence on foreign oil and "make a tremendous difference" in the world and the environment, President Bush said Thursday as he announced details of a $1.2 billion initiative to make hydrogen fuel competitive for powering vehicles and generating electricity.
"We can change our dependence upon foreign sources of energy. We can help with the quality of the air. We can make a fundamental difference for the future of our children," the president said at the National Building Museum in Washington. "Hydrogen fuel cells represent one of the most encouraging, innovative technologies of our era."
Bush outlined several advantages to hydrogen fuel: that it can be produced from domestic sources, that the sources of hydrogen are abundant and that it's clean to use.*
"Cars that will run on hydrogen fuel produce only water, not exhaust fumes," meaning they could dramatically reduce greenhouse gas emissions and help America "take the lead when it comes to tackling the long-term challenges of global climate change," he said.
But the greatest result of using hydrogen power, Bush declared, will be the nation's energy independence.
"It's important for our country to understand, I think most Americans do, that we import over half of our crude oil stocks from abroad. And sometimes we import that oil from countries that don't particularly like us." The president said this dependence is risky.
"To be dependent on energy from volatile regions of the world, our economy becomes subject to price shocks or shortages or disruptions, at one time in our history, cartels.
If we develop hydrogen power to its fuel potential, we can reduce our demand for oil by over 11 million barrels per day by the year 2040."
Bush vowed he would work with Congress to push hydrogen fuel cell technologies, reiterating the pledge from his State of the Union address that a child born today will be driving a hydrogen, pollution-free vehicle as his or her first car.
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Bush outlined several advantages to hydrogen fuel: that it can be produced from domestic sources, that the sources of hydrogen are abundant and that it's clean to use.
"Cars that will run on hydrogen fuel produce only water, not exhaust fumes," meaning they could dramatically reduce greenhouse gas emissions and help America "take the lead when it comes to tackling the long-term challenges of global climate change," he said.
But the greatest result of using hydrogen power, Bush declared, will be the nation's energy independence.
"It's important for our country to understand, I think most Americans do, that we import over half of our crude oil stocks from abroad. And sometimes we import that oil from countries that don't particularly like us." The president said this dependence is risky.
"To be dependent on energy from volatile regions of the world, our economy becomes subject to price shocks or shortages or disruptions, at one time in our history, cartels. If we develop hydrogen power to its fuel potential, we can reduce our demand for oil by over 11 million barrels per day by the year 2040."
Bush vowed he would work with Congress to push hydrogen fuel cell technologies, reiterating the pledge from his State of the Union address that a child born today will be driving a hydrogen, pollution-free vehicle as his or her first car.
Critics faulted Bush's proposal.
The president's plan, said Daniel Becker, director of the Global Warming and Energy program at the Sierra Club, "serves as a shield" to protect automakers from improving fuel economy, a step he said would reduce the nation's dependence on foreign energy faster than Bush's plan would.
"We look forward to the day 20 years from now when hydrogen-powered cars are widely available. But we can't afford to sit back and wait for that day. We need to do something to address the problem immediately," Becker said.
The president's hydrogen fuel initiative calls for $720 million in new funding over the next five years to develop the technologies and infrastructure to produce, store, and distribute hydrogen for use in fuel cell vehicles and in generating electricity.
Combined with the FreedomCAR (Cooperative Automotive Research) initiative, the White House said, the president is proposing a total of $1.7 billion over the next five years to develop hydrogen-powered fuel cells, hydrogen infrastructure and advanced automotive technologies.
The president's hydrogen fuel initiative seeks to lower the cost of producing hydrogen enough to make fuel-cell cars cost-competitive with conventional gasoline-powered vehicles by the year 2010, according to the administration.
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The 2003 invasion of Iraq was the first stage of the Iraq War.
The invasion phase began on 19 March 2003 (air) and 20 March 2003 (ground) and lasted just over one month.
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For Immediate Release
Office of the Press Secretary
June 25, 2003
Hydrogen Economy Fact Sheet
U.S.-EU Summit
Cooperation on the Development of a Hydrogen Economy
'Hydrogen is the simplest element and most plentiful gas in the universe. Yet hydrogen never occurs by itself in nature, it always combines with other elements such as oxygen and carbon. Once it has been separated, hydrogen is the ultimate clean energy carrier.'
The U.S. Space Shuttle program relies on hydrogen-powered fuel cells to operate shuttle electrical systems, and the crews drink one of the by-products: pure water.
Hydrogen is one of the most promising alternatives to hydrocarbon fuels, such as gasoline. Hydrogen can be produced from a wide variety of domestic resources using a number of different technologies. It can also provide a storage medium for intermittent and seasonal renewable technologies, and can be used in combustion processes and fuel cells to provide a broad range of energy services such as lighting, mobility, heating, cooling, and cooking.
On June 25, 2003, the United States and the European Union agreed to collaborate on the acceleration of the development of the hydrogen economy.
Both President Bush and European Commission President Prodi have made the development of a hydrogen economy a major priority.
President Bush's Hydrogen Fuel Initiative, announced on January 28, 2003, envisions the transformation of the nation's transportation fleet from a near-total reliance on petroleum to steadily increasing use of clean-burning hydrogen.
President Prodi at the European Union June 16-17 High Level Group on Hydrogen and Fuel cells Conference noted that hydrogen now looks like the best candidate to address sustainable development.
U.S.-EU collaboration on the development of a hydrogen economy will provide a strong foundation for the International Partnership for the Hydrogen Economy (IPHE), announced by the United States in April of this year.
[The International Partnership for Hydrogen and Fuel Cells in the Economy (IPHE), formed in 2003, is an international governmental partnership currently consisting of 19 member countries and the European Commission.They are: Australia, Austria, Brazil, Canada, China, Costa Rica, European Commission, France, Germany, Iceland, India, Italy, South Korea, Netherlands, Norway, Russian Federation, South Africa, UK, US. On their website you can click on the national flags to see what progress has been made.]
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2004
In February 2004, DOE published its Hydrogen Posture Plan, which describes DOE’s “plan for successfully integrating and implementing technology research, development and demonstration activities needed to cost-effectively produce, store and distribute hydrogen for use in fuel cell vehicles and electricity generation. It was updated in fiscal year 2007 to reflect progress and renamed as the Hydrogen and Fuel Cells Program Plan in fiscal year 2011.
President George W. Bush plugs in a hydrogen-fueled car in 2007
with then-Ford Motor Co. CEO Alan Mulally and Vice President Dick Cheney.
Washington Pool/SIPA/Newscom
2005-2007
The Energy Policy Act of 2005 and Energy Independence and Security Act of 2007
are 'historic pieces of legislation [which] support many of the principles outlined in the National Energy Policy to strengthen our nation's electricity infrastructure, reduce dependence on foreign oil, increase conservation, and expand the use of clean, renewable energy.
EPACT 2005 focuses partly on hydrogen and EISA 2007 partly focuses on improved vehicle fuel economy including fuel cells and reflects strong Congressional support for research and development of hydrogen and fuel cell technologies. These two Acts make the long-term commitment necessary for a market transformation by authorizing the Hydrogen and Fuel Cell Technologies Program through 2020 and by requiring coordinated plans and documentation of the Program’s activities.Source: Review of the Research Program of the FreedomCAR and Fuel Partnership
Third Report (2010) National Academies Press
uel Cell Technologies Program Multi-Year Research, Development and Demonstration (MYRDD) Plan - Section 1.0: Introduction
2018
Alternative Fuels Data Center/US Dept of Energy |
Gassed up and ready to go
by Alice Klein (NewScientist/ 8th September 2018)
'Hydrogen-Powered cars have had a bumpy ride. Back in 2003, they were touted as "one of the most encouraging, innovative technologies of our era" by US president at the time George W. Bush. Then the Tesla revolution came along and they were left in the dust by their battery-driven electric rivals. Now, there are signs of a comeback.'
At the moment, there are only about 6000 hydrogen vehicles on the road globally, compared with 2 million electric vehicles.
A recent survey of more than 900 global automotive executives by consulting firm KPMG found that 52 per cent rated hydrogen fuel cell vehicles as a leading industry trends
Japan has announced plans to put 40,000 hydrogen vehicles on the road in the next five years, and South Korea 16,000.
Germany wants to have 400 refuelling stations for hydrogen vehicles by 2025.
California has already opened 35
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PROS AND CONS
The ability to rapidly refuel is one of the main advantages hydrogen vehicles have over their electric counterparts, says Macleod. Filling up a hydrogen car takes about the same time as filling a petrol one, rather than the hours it typically takes to recharge an electric car's battery. You can also go further on a full tank of hydrogen-about 500 kilometres, compared with 300 kilometres for a standard fully charged battery.
Although hydrogen reacts cleanly — the only thing coming out of the exhaust pipe is water —hydrogen vehicles are more energy-intensive than electric ones if you factor in fuel production and transport, says Jake Whitehead at the University of Queensland, Australia.
At the moment, most hydrogen is extracted from natural gas —a fossil fuel. "Green" hydrogen can be made by splitting water using solar or wind power, but this involves multiple steps, each using energy along the way. Whitehead's modelling shows that hydrogen vehicles require between 80 and 100 kilowatt-hours of electricity to travel 100 kilometres, compared with about 20 kilowatt-hours to travel the same distance in a battery vehicle.
Hydrogen cars currently cost about 13 cents per kilometre to run, compared with 8 cents per kilometre for petrol cars.
The shorter refuelling time and longer range of hydrogen fuel cells make them appealing for taxis, buses and long-haul trucks, Hydrogen fuel cells are already finding applications in these heavy-use vehicles.
Amazon has recently invested in hydrogen-powered forklifts for its warehouses.
US manufacturer Nikola Motors, meanwhile, says it has received 11,000 pre-orders for its hydrogen fuel cell truck.
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Revamped 2nd generation Toyota Mirai goes on sale at the end of 2020. The first generation Mirai was launched in Japan in 2014 selling at $60,000. They have since sold 10,000. |
Green Tomato - a London-based private hire taxi service with a fleet of Toyota Mirai FCEVs (Fuel Cell Electric Vehicles) is one of the participants in a €26million demonstration project called Zero Emission Fleet vehicles For European Roll-out (ZEFER) which began in September 2017 and will run until September 2022.
The project will deploy 180 FCEVs (Fuel Cell Electric Vehicles) in Paris and Brussels (60 vehicle taxi fleets), and London (50 private hire vehicles and 10 deployed to Metropolitan Police fleets). The vehicles will each complete at least 40,000km, totalling over 1 million km between them using more
than 100 tonnes of hydrogen. Green Tomato claims that running costs of the hydrogen cars are comparable with a Toyota Prius, refueling takes the same time as a conventional petrol or diesel car, and the range is 300 miles (480km) per refill.
than 100 tonnes of hydrogen. Green Tomato claims that running costs of the hydrogen cars are comparable with a Toyota Prius, refueling takes the same time as a conventional petrol or diesel car, and the range is 300 miles (480km) per refill.
In October 2019, 13 hydrogen-powered FCEVs travelled a combined total of just under 6,000km from Belgium, the Netherlands, Germany, Denmark and Norway to converge in Hamburg for a Hydrogen for Clean Transport conference.
This was made possible by following a network of 32 Hydrogen Refuelling Stations (HRS) funded by the pan-European Hydrogen Mobility Europe (H2ME) project, targeted to expand to 49 by 2022. The recently launched h2-map.eu shows the location and live status of 137 HRSs, more than half of which are available in Germany.
FCEVs deployed in the H2ME project included: the Toyota Mirai; Symbio’s new generation of the Renault Kangoo Z.E electric van; Honda’s second-generation FCEV; and Daimler’s new-generation Mercedes-BenzGLC F-CELL SUV.
H2ME project partners Audi and BMW announced plans for releasing small series hydrogen vehicles in the coming years. In total, more than 1,400 FCEVs will be deployed by 2022.
There are currently more than 550 hydrogen vehicles for private and business use across the United Kingdom, Germany, France, Scandinavia, and other European countries.
The number of hydrogen refuelling stations is rising, but currently there are only 139 across Europe, including 12 in the UK and 6 in London.
Hydrogen Fleet Exceeds 1.6million km threshold Jonathan Manning/ 20th Jan 2020
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