But the cost of building out an entirely
new hydrogen production and distribution infrastructure is huge.
Not exact matches
The company had already received city approval to construct a
new hydrogen plant and upgrade equipment that would increase
production and capacity to remove sulfur from crude oil, among other things.
The
new hydrogen plant, which will allow the company to increase fuel
production, will remain, as well as equipment to more efficiently handle higher sulfur - content crude oil.
Researchers are proposing a
new «hydricity» concept aimed at creating a sustainable economy by not only generating electricity with solar energy but also producing and storing
hydrogen from superheated water for round - the - clock power
production.
Hydrogen seems to be an excellent and clean energy vector, and catalysis is expected to be at the core of the new developing technologies for the production, storage, and burning of hydrogen in fue
Hydrogen seems to be an excellent and clean energy vector, and catalysis is expected to be at the core of the
new developing technologies for the
production, storage, and burning of
hydrogen in fue
hydrogen in fuel cells.
Cobalt atoms shine in an electron microscope image of a
new catalyst for
hydrogen production invented at Rice University.
But César Torres, a chemical engineer at Arizona State University, Tempe, suggests that the
new technology isn't quite ready for full - scale
production of
hydrogen.
«We have developed a
new type of protective coating that enables a key process in the solar - driven
production of fuels to be performed with record efficiency, stability, and effectiveness, and in a system that is intrinsically safe and does not produce explosive mixtures of
hydrogen and oxygen,» says Nate Lewis, the George L. Argyros Professor and professor of chemistry at Caltech and a coauthor of a
new study, published the week of March 9 in the online issue of the journal the Proceedings of the National Academy of Sciences, that describes the film.
In a
new Perspective article, published in the Journal of The Electrochemical Society, researchers are aiming to tackle a fundamental debate in key reactions behind fuel cells and
hydrogen production, which, if solved, could significantly bolster clean energy technologies.
Splitting
hydrogen from water: This illustration depicts the synthesis of a
new hydrogen -
production catalyst from soybean proteins and ammonium molybdate.
«The research team has provided a
new perspective in designing and improving non-precious metal - based catalysts for
hydrogen production,» said Lin.
Researchers in China, along with colleagues in the US, have developed a
new catalyst that shows outstanding
hydrogen -
production activity and stability in the low - temperature aqueous phase reforming of methanol (APRM).
A
new report on fuel cell vehicles from IHS Automotive forecasts that global
production of
hydrogen fuel cell electric vehicles (FCEVs) will reach more than 70,000 vehicles annually by 2027, as more automotive OEMs bring FCEVs to market.
Said to be acting as a test bed for
new technology, the fuel cell car is a precursor to mass
production hydrogen powered vehicles, which BMW says could arrive by 2020.
Mercedes - Benz welcomes a
new flagship SLS AMG sports car,
new E-Class wagon, and a limited -
production hydrogen F - Cell vehicle for 2011In addition to option changes across the board, there are two all -
new, twin - turbo V - 8 engines, a facelifted CL - Class, and the diesel powerplant finds a
new homeHistoryMercedes - Benz Motor Company, a German automaker, was founded in 1881, making it the world's oldest automotive brand still in operation today.
Toyota unveiling
new hydrogen fuel cell concept vehicle indicative of 2015
production model at Tokyo Motor Show; Aqua hybrid and FT - EV III
The
new model is said to be a
production - relevant
hydrogen fuel cell SUV that draws heavily on the contemporary platform structure, electric drivetrain architecture and battery technology of the earlier e-tron quattro concept.
There was plenty of great
new metal to be seen at the Detroit motor show: a brand
new Mercedes - Benz E-Class,
new hydrogen technology from Audi and our first chance to see
production models such as the BMW M2 in the metal.
The
new concept, described as being «halfway between a competition prototype and a
production supercar,» is powered by two race - specification electric motors, fed by a lightweight
hydrogen fuel cell.
And
newer technologies like large - scale battery storage and
production of
hydrogen are becoming economic, because they harness cheap power from excess renewable capacity.
A
new paper, presented at the SolarPACES Annual Conference proposes using ceria particles not only as the redox reactant in
hydrogen production, but for also for heat transfer and storage.
In a
new Perspective article, published in the Journal of The Electrochemical Society, researchers are aiming to tackle a fundamental debate in key reactions behind fuel cells and
hydrogen production, which, if solved, could significantly bolster clean energy technologies.
Using theory, modern surface - science methods, and synchrotron - based techniques, JCAP researchers seek to understand the reaction pathways and the elementary steps of the
hydrogen and oxygen evolutions reactions to facilitate the design of
new, Earth - abundant catalysts for solar - fuels
production.
New guidelines laid down by Nebraska and Chinese researchers could steer the design of less costly, more efficient catalysts geared toward revving up the
production of
hydrogen as a renewable fuel.
Development and Experimental Study for
Hydrogen Production from the Thermochemical Two - step Water Splitting Cycles with a CeO2 Coated
New Foam Device Design Using Solar Furnace System
Success with ammonia means we will have developed and commercialized, at scale, with viable economics, infrastructure and supply chains, the following
new technologies: CCS, SSAS, methane cracking, conventional and high temperature electrolysis and thermochemical water splitting for
hydrogen production, nuclear heat sources and small modular reactors, and solar heat sources and renewable electricity of sufficient reliability to be integrated into high volume must - run industrial processes.
When it comes to driving
hydrogen production, a
new catalyst built at PNNL can do what was previously shown to happen only in nature: store energy in
hydrogen and release that energy on demandâ $» an essentiality for viable energy alternatives to fossil fuels.
We see it as a
new and viable alternative to high temperature gasification and other renewable means of
hydrogen production.
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Hydrogen Production: Video Interview with Daniel Nocera
A
new report on fuel cell vehicles from IHS Automotive forecasts that global
production of
hydrogen fuel cell electric vehicles (FCEVs) will reach more than 70,000 vehicles annually by 2027, as more automotive OEMs bring FCEVs to market.
Many
new technologies could change the whole picture such as massive energy storage, efficient electro - catalytic
hydrogen production, ambient temperature superconductors etc. but with the current technology investing in wind / solar over nuclear will aggravate our GHG emission problems not improve them.
The
new JCAP photocathode construct consists of the semiconductor gallium phosphide and a molecular cobalt - containing
hydrogen production catalyst from the cobaloxime class of compounds.
Prof. Jeong Min Baik of UNIST (School of Materials Science and Engineering) said that while several attempts have been made to use UV - based photoelectrodes for
hydrogen production, the
new photoelectrode represents the first use of the metal - dielectric hybrid - structured film with TiO2 for oxygen
production.