Technion-Israel Institute of Technology researchers have developed a new approach to the production of hydrogen from water using solar energy. In findings published today in Nature Materials, the researchers explain that it will make possible the production of hydrogen in a safe, centralized manner at the point of sale (for example, at a gas station for electric cars fueled by hydrogen) located far from the solar farm. The new technology is expected to significantly reduce the cost of producing the hydrogen and shipping it to the customer.
The study was led by Avigail Landman, a doctoral student in the Nancy & Stephen Grand Technion Energy Program (GTEP), and Dr. Hen Dotan from the Electrochemical Materials & Devices Lab. Ms. Landman is working on her doctorate under the guidance of Prof. Avner Rothschild from the Faculty of Materials Science and Engineering, and Prof. Gideon Grader, Dean of the Faculty of Chemical Engineering.
Hydrogen is considered one of the most promising energy carriers for vehicles and various other uses because of its salient advantages:
- Hydrogen can be produced from water, and therefore production does not depend on access to non-renewable natural resources.
- Using hydrogen fuel would reduce the dependence on fossil fuels such as oil and natural gas, whose availability depends on geographical, political and other factors, and would increase the energy available to the earth’s population.
- Unlike diesel and gasoline engines that emit considerable pollution into the air, the only byproduct of hydrogen fuel utilization is water.
Because of the advantages of hydrogen fuel, many countries – led by Japan, Germany and the United States – are investing vast sums of money in programs for the development of environmentally friendly (“green”) technologies for the production of hydrogen. Most hydrogen is currently produced from natural gas in a process that emits carbon dioxide into the air, but it is also possible to produce hydrogen from water by splitting the water molecules into hydrogen and oxygen in a process called electrolysis. However, since electricity production itself is an expensive and polluting process, researchers at the Technion and around the world are developing a photoelectrochemical (PEC) cell that utilizes solar energy to split water into hydrogen and oxygen directly, without the need for external power source.
The main challenges in the development of PEC solar farms for the production of hydrogen are 1.) keeping the hydrogen and the oxygen separate from each other, 2.) collecting the hydrogen from millions of PEC cells, and 3.) transporting the hydrogen to the point of sale. The Technion team solved these challenges by developing a new method for PEC water splitting. With this method, the hydrogen and oxygen are formed in two separate cells – one that produces hydrogen, and another that produces oxygen. This is in contrast to the conventional method, in which the hydrogen and oxygen are produced within the same cell, and separated by a thin membrane that prevents them from intermixing and forming a flammable and explosive mixture.
The new process allows geographic separation between the solar farm consisting of millions of PEC cells that produce oxygen exclusively, and the site where the hydrogen is produced in a centralized, cost-effective and efficient manner. They accomplished this with a pair of auxiliary electrodes made of nickel hydroxide, an inexpensive material used in rechargeable batteries, and a metal wire connecting them.
To watch a video of the researchers explaining their new technology, click here.
“In the present article, we describe a new method for producing hydrogen through the physical separation of hydrogen production and oxygen production,” says Ms. Landman. “According to our cost estimate, our method could successfully compete with existing water splitting methods and serve as a cheap and safe platform for the production of hydrogen.”
The first diagram shows a conventional PEC device, with a membrane separating the two products (oxygen on the right, hydrogen on the left).
But that’s not all. As stated, the vision of the Technion researchers is geographic separation between the sites where the oxygen and hydrogen are produced: at one site, there will be a solar farm that will collect the sun’s energy and produce oxygen, while hydrogen is produced in a centralized manner at another site, miles away. Thus, instead of transporting compressed hydrogen from the production site to the sales point, it will only be necessary to swap the auxiliary electrodes between the two sites. Economic calculations performed in collaboration with research fellows from Evonik Creavis GmbH and the Institute of Solar Research at the German Aerospace Center (DLR), indicate the potential for significant savings in the setup and operating costs of hydrogen production.
In October, Ms. Landman won first place in the energy category in the Three Minute Thesis (3MT) competition held in Australia. At the competition, held on the initiative of the University of Queensland, participants are required to present groundbreaking research in just three minutes. Watch her lecture here.
The method developed at the Technion for separating hydrogen production and oxygen production was the basis for the development of new two-stage electrolysis technology. This technology, which was developed by Dr. Hen Dotan, enables hydrogen production at high pressure and with unprecedented efficiency, thus significantly reducing hydrogen production costs. The new technology is now in its pre-industrial development stage.
Learn more: HYDROGEN ON DEMAND
[osd_subscribe categories=’hydrogen-production’ placeholder=’Email Address’ button_text=’Subscribe Now for any new posts on the topic “HYDROGEN PRODUCTION”‘]
Receive an email update when we add a new HYDROGEN PRODUCTION article.
The Latest on: Hydrogen production
[google_news title=”” keyword=”hydrogen production” num_posts=”10″ blurb_length=”0″ show_thumb=”left”]
via Google News
The Latest on: Hydrogen production
- Green hydrogen production hub approved in Scotland in bid to decarbonise transport and power hospitalson May 9, 2024 at 7:00 pm
GreenPower has been given the go-ahead to build a production and distribution centre at the Glenshellach Industrial Estate in Oban, Argyll and Bute, with plans to help distilleries and fish farms move ...
- Nexergy Holdings PLC and Lorentz Collaborate to Revolutionise Green Hydrogen Productionon May 9, 2024 at 4:37 pm
The collaboration by Nexergy and Lorentz will realise the commercial production of ‘Green’ Hydrogen for use in multiple industries.London, UK, May 09, 2024 (GLOBE NEWSWIRE) -- Nexergy Holdings PLC, an ...
- BP Co-Leads $111 Million Funding Round by Australian Green-Hydrogen Electrolyzer Companyon May 9, 2024 at 2:31 pm
SYDNEY—British oil giant BP PLC co-led a $111 million capital raise by an Australia-based technology company developing highly efficient electrolyzers to produce lower-cost green hydrogen.
- Green hydrogen production hub could decarbonise transport and power hospitalson May 9, 2024 at 11:38 am
GreenPower has won approval to build a production and distribution centre at the Glenshellach Industrial Estate in Oban, Argyll and Bute.
- Manganese sprinkled with iridium: a quantum leap in green hydrogen productionon May 9, 2024 at 11:04 am
However, extracting hydrogen from water on a scale that can rival fossil fuel-based energy production is not yet possible. Current global energy production is almost 18 terawatts, meaning that at any ...
- Manganese sprinkled with iridium reduces need for rare metal without altering rate of green hydrogen productionon May 9, 2024 at 11:00 am
As the world is transitioning from a fossil fuel-based energy economy, many are betting on hydrogen to become the dominant energy currency. But producing "green" hydrogen without using fossil fuels is ...
- Scientists unlock key to cheap hydrogen fuel with 95% less iridiumon May 9, 2024 at 11:00 am
Researchers from the RIKEN Center for Sustainable Resource Science (CSRS) in Japan may have found the secret sauce to cheap hydrogen fuel production. The secret, it seems, could be to mix a little ...
- California’s Dream of a Green Hydrogen Future Could Backfireon May 9, 2024 at 2:30 am
Backers argue that California must move quickly to reap the benefits of federal incentives. Guidelines for the hydrogen hub money require states to build up their supply and delivery of clean hydrogen ...
- $550M Green Hydrogen Hub Breaks Ground in Buckeye, Arizona, Forecasting Renewable Energy Gains and Job Growthon May 9, 2024 at 2:21 am
Fortescue is developing a $550 million hydrogen hub in Buckeye, Arizona, set to begin production in 2026 and bring jobs to the area.
via Bing News