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Environment & Energy
Related: About this forumThe Road to Solar Fuels Hits a Speed Bump
https://www.technologyreview.com/s/601692/the-road-to-solar-fuels-hits-a-speed-bump/[font face=Serif][font size=5]The Road to Solar Fuels Hits a Speed Bump[/font]
[font size=4]We can now efficiently split water to make hydrogen, but a practical way to make fuels via artificial photosynthesis remains an elusive goal.[/font]
by Richard Martin | June 16, 2016
[font size=3]When I visited Lawrence Berkeley National Laboratory in March, Frances Houle, the deputy director of the Joint Center for Artificial Photosynthesis, showed off one of the centers latest advances. It is a device that breaks down water into hydrogen and oxygen in sunlight. The labs researchers had previously used artificial light to drive the process; this was the first time they were doing it with natural light. Fixed to a thin metal stand on the roof of the centers building above Berkeley, with a spectacular view west across San Francisco Bay, the small device has a solar cell that supplies the energy needed for a chemical catalyst to split the water. At the top of the device, pure hydrogen bubbled up.
Created in 2010 under Secretary of Energy Steven Chu, the center, commonly called JCAP, has an audacious goal: to create fuels using only sunlight, carbon dioxide, and water (see Artificial Photosynthesis Effort Takes Root). Done economically, that would be a Promethean achievement, representing a huge step toward solving the two outstanding challenges in shifting from fossil fuels to renewable energy: storing large amounts of energy for later use, and powering forms of transportation that cannot easily run on batteries.
All of the studies of a clean energy system Ive ever seen identify the same two technology gaps, says Nate Lewis, the centers founding director. Massive grid-scale energy storage to compensate for the intermittency of wind and solar power, and an energy-dense, carbon-neutral liquid transportation fuel. Turning sunlight into fuel would enable solar energy captured during the day to be stored, transported, and used when the suns not shining. The same fuel could replace fossil fuels that power todays aircraft and ships. There are no such things as a plug-in electric airplane or ship, adds Lewis.
[font size=1]One of JCAPs primary achievements has been solar-energy-driven devices that can split water into hydrogen and oxygenan important first step on the road to artificial photosynthesis.[/font]
Hosted at Caltech and Lawrence Berkeley Lab, JCAP was originally funded with $122 million over five years, and its funding was renewed (albeit at a lower level) last year. Now headed by Harry Atwater, a Caltech professor of applied physics, it has made some impressive achievements in its six years of existence. Most notably, JCAP scientists have succeeded in building devices like the one I saw, prototypes that can split water into hydrogen and oxygen at 10 times the efficiency of photosynthesis. That is an important first step to artificial photosynthesis; the next step would be combining hydrogen with carbon dioxide to produce solar fuels that could replace fossil fuels.
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[font size=4]We can now efficiently split water to make hydrogen, but a practical way to make fuels via artificial photosynthesis remains an elusive goal.[/font]
by Richard Martin | June 16, 2016
[font size=3]When I visited Lawrence Berkeley National Laboratory in March, Frances Houle, the deputy director of the Joint Center for Artificial Photosynthesis, showed off one of the centers latest advances. It is a device that breaks down water into hydrogen and oxygen in sunlight. The labs researchers had previously used artificial light to drive the process; this was the first time they were doing it with natural light. Fixed to a thin metal stand on the roof of the centers building above Berkeley, with a spectacular view west across San Francisco Bay, the small device has a solar cell that supplies the energy needed for a chemical catalyst to split the water. At the top of the device, pure hydrogen bubbled up.
Created in 2010 under Secretary of Energy Steven Chu, the center, commonly called JCAP, has an audacious goal: to create fuels using only sunlight, carbon dioxide, and water (see Artificial Photosynthesis Effort Takes Root). Done economically, that would be a Promethean achievement, representing a huge step toward solving the two outstanding challenges in shifting from fossil fuels to renewable energy: storing large amounts of energy for later use, and powering forms of transportation that cannot easily run on batteries.
All of the studies of a clean energy system Ive ever seen identify the same two technology gaps, says Nate Lewis, the centers founding director. Massive grid-scale energy storage to compensate for the intermittency of wind and solar power, and an energy-dense, carbon-neutral liquid transportation fuel. Turning sunlight into fuel would enable solar energy captured during the day to be stored, transported, and used when the suns not shining. The same fuel could replace fossil fuels that power todays aircraft and ships. There are no such things as a plug-in electric airplane or ship, adds Lewis.
[font size=1]One of JCAPs primary achievements has been solar-energy-driven devices that can split water into hydrogen and oxygenan important first step on the road to artificial photosynthesis.[/font]
Hosted at Caltech and Lawrence Berkeley Lab, JCAP was originally funded with $122 million over five years, and its funding was renewed (albeit at a lower level) last year. Now headed by Harry Atwater, a Caltech professor of applied physics, it has made some impressive achievements in its six years of existence. Most notably, JCAP scientists have succeeded in building devices like the one I saw, prototypes that can split water into hydrogen and oxygen at 10 times the efficiency of photosynthesis. That is an important first step to artificial photosynthesis; the next step would be combining hydrogen with carbon dioxide to produce solar fuels that could replace fossil fuels.
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The Road to Solar Fuels Hits a Speed Bump (Original Post)
OKIsItJustMe
Jun 2016
OP
swhisper1
(851 posts)1. good to see R&D in this life saving science
solar cars, the cleanest future