Nouryon, Tata Steel, Port of Amsterdam to study feasibility of largest green H2 cluster in Europe; 100 MW water electrolysis facility

Nouryon (formerly AkzoNobel Specialty Chemicals), Tata Steel and the Port of Amsterdam have joined together to study the feasibility of a large green hydrogen cluster in the Amsterdam region. The three parties consider green hydrogen as vital for reaching climate targets and building a more circular economy—e.g., by combining it... Details →


Berlin-based Graforce Hydro GmbH, the developer of a plasma electrolyzer—the Plasmalyzer—is applying its technology for the highly efficient generation of hydrogen from industrial waste water. Mixing in biogas produces hydrogen-enriched compressed natural gas (HCNG)—a cost-effective, environmentally friendly fuel for vehicles that also generates electricity and heat. The technology not only... Details →


A research team led by Daegu Gyeongbuk Institute Of Science And Technology (DGIST) Professor Jong-Sung Yu in Korea, with colleagues at UC Berkeley and Xi’an Jiaotong University in China, has successfully developed a new catalyst synthesis method that can efficiently decompose water into oxygen and hydrogen using solar light. A... Details →


Rice University nanoscientists have demonstrated a new catalyst that can convert ammonia into hydrogen fuel at ambient pressure using only light energy, mainly due to a plasmonic effect that makes the catalyst more efficient. Their study, published in Science, describes new catalytic nanoparticles which are made mostly of copper with... Details →


Univ of Illinois team mixed metals with perchloric acid to create stable, efficient catalyst for water splitting

Researchers from the University of Illinois at Urbana-Champaign have mixed metal compounds with perchloric acid to create a stable, efficient electrocatalytic material for the oxygen evolution reaction in acidic media. The resulting porous Y2[Ru1.6Y0.4]O7−δ electrocatalyst exhibits a turnover frequency (TOF) of 560 s−1 (at 1.5 V versus RHE) for the oxygen evolution... Details →


Toyota Mobility Foundation calls for second round of research proposals to support innovative hydrogen energy solutions

The Toyota Mobility Foundation (TMF) is calling for research proposals from Japan for 2018 under the Hydrogen Research Initiative established in 2017. (Earlier post.) This initiative is part of TMF’s goal to promote sustainable mobility. It recognizes that pairing carbon-free hydrogen systems with renewable energies contributes to energy sustainability. It... Details →


In Denmark, Air Liquide inaugurated HyBalance, a pilot site for the production of carbon-free hydrogen. The facility uses electrolysis technology to balance the electricity grid and to store sur electricity in the form of hydrogen that will be used in industry and transportation. This project, initiated in 2016, is led... Details →


ARENA awards A$22.1M to 16 projects to accelerate exporting renewable hydrogen

On behalf of the Australian Government, the Australian Renewable Energy Agency (ARENA) awarded A$22.1 million (US$16 million) in funding to 16 research projects to propel innovation in exporting renewable hydrogen. The funding has been offered to research teams from nine Australian universities and research organisations including the Australian National University,... Details →


The California Fuel Cell Partnership (CaFCP) released its 2030 vision for California, The California Fuel Cell Revolution. The vision document describes a self-sustaining market in 2030 for fuel cell electric vehicles and renewably hydrogen, and the strategic priorities necessary for realizing it. The CaFCP document envisions 1,000 hydrogen stations enabling... Details →


INL team develops new electrode for efficient steam electrolysis at reduced temperatures

The production of hydrogen production via water electrolysis using solid oxide electrolysis cells (SOECs) offers favorable thermodynamics and kinetics, and is considered the most efficient and low‐cost option for hydrogen production from renewable energies. Using a proton‐conducting electrolyte (H‐SOECs) can reduce the operating temperature from beyond 800 to 600 °C... Details →


Researchers split water by altering photosynthetic machinery in plants; semi-artificial photosynthesis

A new study, led by academics at St John’s College, University of Cambridge, has used semi-artificial photosynthesis to explore new ways to produce and store solar energy. They used natural sunlight to convert water into hydrogen and oxygen using a mixture of biological components and manmade technologies. Their method also... Details →


An economically-sustainable hydrogen industry in Australia could soon be on the cards according to a blueprint released by CSIRO, the national science agency, which found that cost-competitiveness is firmly on the horizon. Source: CSIRO. The National Hydrogen Roadmap sets out a path to develop the action and investment plans required... Details →


University of Louisville researchers working on new HER catalysts for water-splitting; $1M from NSF, DOE

Researchers at the University of Louisville are developing new catalyst materials for the hydrogen evolution reaction in water splitting, where the bond between hydrogen (H2) and oxygen is released. The current catalyst used in electrolyzers for the production of H2 from water is platinum, which is very expensive. This research... Details →


DOE selects 28 hydrogen and fuel cell R&D projects for $38M in funding

The US Department of Energy (DOE) has selected 28 projects for awards totaling $38 million to support early-stage research and development of innovative hydrogen and fuel cell technologies. This work also supports the DOE’s [email protected] Scale initiative to produce and use hydrogen across multiple energy sectors. Selections for this investment... Details →


Researchers in Norway report that the carbon efficiency of a conventional Biomass-to-Liquid (BtL) process can be increased from 38 to more than 90% by adding hydrogen from renewable energy sources. The increased carbon efficiency is possible because the water gas shift reaction is avoided and instead a reversed water gas... Details →


DOE releases request for information on multi-sector uses of hydrogen; [email protected]

At the [email protected] Scale project (earlier post) kickoff meeting in Chicago, EERE’s Deputy Assistant Secretary for Transportation Steven Chalk announced the release of a request for information (RFI) soliciting stakeholder feedback on opportunities to enable high volume production and multi-sector use of hydrogen. The [email protected] Initiative outlines a potential framework... Details →


UNL-led team greatly increases hydrogen production by T maritima; breaking the theoretical limit

Researchers at the University of Nebraska-Lincoln (UNL), with colleagues from North Carolina State University and the University of Connecticut, have engineered the hyperthermophilic anaerobe Thermotoga maritima to produce 46% more hydrogen per cell than the wild type. The team’s highest reported yield—5.7 units of hydrogen for every unit of glucose... Details →


thyssenkrupp recently introduced industrial-scale water electrolysis for large projects. By splitting water into hydrogen and oxygen, this technology delivers “green” hydrogen, a clean, CO2-free energy carrier. The only inputs needed are water and renewable electricity from wind, hydro power or photovoltaics. 20 MW module. “Green” hydrogen production is suited for... Details →


In the quest to realize artificial photosynthesis to convert sunlight, water, and carbon dioxide into fuel—just as plants do—researchers need to not only identify materials to efficiently perform photoelectrochemical water splitting, but also to understand why a certain material may or may not work. Now scientists at Lawrence Berkeley National... Details →


Researchers at Linköping University and Umeå University in Sweden have developed a new and efficient way to use electrocatalysis to produce hydrogen gas from water using electrodes with nanotruss structures of iron oxide. A paper on their work is published in the ACS journal Nano Letters. The Plasma and Coatings... Details →


Air Liquide launches second Scientific Challenge on essential small molecules; hydrogen in two out of three topics

Following the success of the first edition which mobilized 130 academic and startup partners, Air Liquide has launched a second Scientific Challenge designed to advance research in an open innovation approach. This year, the three topics selected are aimed at improving air quality and preventing global warming for the planet.... Details →


On behalf of the Australian Government, the Australian Renewable Energy Agency (ARENA) has announced $1.5 million toward the funding of Australia’s first green hydrogen innovation hub at Jandakot in Western Australia. Total project value is $3.3 million. In Jandakot, gas company ATCO will trial the production, storage and use of... Details →


Scientists in Japan have shown that an oxyfluoride is capable of visible light-driven photocatalysis—i.e., converting solar energy to fuel energy using visible-light-absorbing semiconductor materials. The finding opens new doors for designing materials for artificial photosynthesis and solar energy research. Pb2Ti2O5.4F1.2. The inset (on the right) shows a photograph of Pb2Ti2O5.4F1.2,... Details →


Nel ASA has been awarded a contract for delivery of 448 electrolyzers and associated fueling equipment to Nikola Motor Company (Nikola) as part of Nikola’s development of a hydrogen station infrastructure in the US for truck and passenger vehicles. Under the multi-billion NOK (1 NOK = US$0.12) contract, to be... Details →


S Korea to invest $2.3B in hydrogen fuel cell vehicle industrial ecosystem over next 5 years

The South Korean government and businesses will invest some 2.6 trillion won (US $2.33 billion) over the next five years in a public-private partnership to speed up the development of the country’s hydrogen fuel cell vehicle ecosystem, according to the Ministry of Trade, Industry and Energy (MOTIE). The target is... Details →


Army researchers have developed a novel, structurally-stable, aluminum-based nanogalvanic alloy powder that, when combined with water or any water-based liquid, reacts to produce on-demand hydrogen for power generation at room temperature without chemicals, catalysts or externally supplied power. These patent-pending powders produce hydrogen at a rate that currently is one... Details →


US/China team develops robust, stable Ni/Fe OER catalyst for water-splitting at low overpotentials

A team from the University of Houston and Hunan Normal University in China has developed an active and durable oxygen evolution reaction (OER) catalyst for water splitting that meets commercial crtieria for current densities at low overpotentials. In a paper in the RSC journal Energy & Environmental Science, the report... Details →


DOE awarding up to $3.5M to 3 projects for nuclear-compatible high-temperature electrolysis for H2 production

The US Department of Energy (DOE) is awarding up to $3.5 million to three hydrogen production research and development (R&D) projects that are compatible with nuclear energy sources. DOE is focused on developing technologies that can produce hydrogen at a target of less than $4/kg (delivered and dispensed). Using electricity... Details →


DOE SBIR/STTR FY18 BES Phase 1 Release 1 awards include 15 for hydrogen and fuel cells

The US Department of Energy (DOE) has announced the 2018 Small Business Innovation Research and Small Business Technology Transfer (SBIR/STTR) Phase I Release 1 awards, including 15 projects focused on high density hydrogen storage, innovative ionomers (ion-containing polymers) in the catalyst layer, gas diffusion layers, and membranes for electrochemical production... Details →


SoCalGas introduces STARS solar hydrogen generation system at California Air Resources Board Symposium

Southern California Gas Co. (SoCalGas) introduced an innovative new solar-powered hydrogen generation system during the California Air Resources Board Technology Expo and Symposium at the University of California, Riverside. The project is a partnership between SoCalGas, Pacific Northwest National Laboratory (PNNL) and the STARS Corporation. The generation system uses sunlight... Details →


A methanation plant expansion to the existing power-to-gas (PtG) facility in Falkenhagen, Germany has officially opened as part of the international €28-million (US$33.5-million) STORE&GO research project. Construction on the methanation plant began in July 2017. While the current facility feeds pure hydrogen (“WindGas”) directly into the gas grid, the new... Details →


Researchers from Virginia Tech developed an in vitro artificial enzymatic pathway that can produce hydrogen at extremely high rates by splitting water energized by carbohydrates (e.g., starch). As reported in a paper in the RSC journal Energy & Environmental Science, the pathway delivered up to a 1,000-fold enhancement in volumetric... Details →


New protocol to enhance photosynthetic production of hydrogen from green algae

A research group from the University of Turku, Finland, has developed a new protocol to deliver sustained hydrogen photoproduction in green algae under a train of strong white light pulses interrupted by longer dark phases. As reported in a paper in the RSC journal Energy & Environmental Science, under the... Details →


Exeter team develops low-cost photoelectrode for spontaneous water-splitting using sunlight

Researchers at the University of Exeter (UK) have developed a novel p-type LaFeO3 photoelectrode using an inexpensive and scalable spray pyrolysis method. The nanostructured photoelectrode results in spontaneous hydrogen evolution from water without any external bias applied with a faradaic efficiency of 30% and excellent stability. The researchers believe this... Details →


Grannus Process designed BACT by US EPA for production of hydrogen or ammonia

Grannus, LLC’s Grannus Process has been designated as Best Available Control Technology (BACT) by the US Environmental Protection Agency (EPA) for production of hydrogen or ammonia. The designation was achieved because the processes’ emissions levels are well below Federal, State and local permit application requirements—even in non-attainment zones. The reference... Details →


Researchers in Canada have demonstrated a new photochemical diode artificial photosynthesis system that can enable efficient, unassisted overall pure water splitting without using any sacrificial reagent. As reported in an open-access paper in Nature Communications, the wafer-level photochemical diode arrays exhibited solar-to-hydrogen efficiency of ~3.3% in neutral (pH ~ 7.0) overall water... Details →


Ammonia (NH3) has been drawing attention as a carbon-free alternative fuel. NH3 could be widely used in thermal power generation and industrial furnaces as an alternative to gasoline and light oil. However, compared with fossil fuels, NH3 has a high ignition temperature; a low combustion rate and N2O/NOx production. To... Details →


A team led by researchers at the University of Tsukuba in Japan has fabricated non-noble-metal electrodes for the hydrogen evolution reaction (HER) for electrochemical water splitting using a bicontinuous and open porous NiMo alloy covered by nitrogen-doped (N-doped) graphene with nanometer-sized holes. This noble-metal-free HER catalyst exhibits performance almost identical... Details →


In Japan, Aichi Prefecture, Chita City, Toyota City, Chubu Electric Power, Toho Gas, Toyota Motor Corporation, and Toyota Industries have launched the Chita City and Toyota City Renewable Energy-use Low-carbon Hydrogen Project. The project is a first step toward realizing the 2030 vision of a low-carbon hydrogen supply chain formulated... Details →


Anglo American Platinum (Amplats), alongside Shell Technology Ventures (STV), has taken a stake in High-Yield Energy Technologies (HyET) (earlier post), a Dutch company that has developed cost-effective electrochemical hydrogen compression (EHC) technology. HyET’s technology is a reliable substitute for mechanical hydrogen compression both in existing industrial applications and in hydrogen... Details →


The Australian, Japanese and Victorian governments and a consortium of companies have launched the pilot of an innovative supply chain that will deliver liquefied hydrogen from the Latrobe Valley in Australia to Japan. The Hydrogen Energy Supply Chain (HESC) project will convert brown coal from the AGL Loy Yang mine... Details →


The European H2FUTURE project consortium, comprising voestalpine, Siemens, VERBUND, and Austrian Power Grid, together with the research partners K1-MET and ECN, officially gave the green light to the construction of a 6 MW “green” hydrogen pilot production plant—the world’s largest—at a voestalpine Linz steel plant. (Earlier post.) The partners from... Details →


Researchers at Northwestern University have developed a new approach for creating new catalysts to aid in clean energy conversion and storage. The design method, reported in a paper in the Proceedings of the National Academy of Sciences, (PNAS) also has the potential to impact the discovery of new optical and... Details →


Toyota Mobility Foundation awards 10 grants for hydrogen research initiative

The Toyota Mobility Foundation (TMF) has selected ten researchers to receive grants from the research program to support innovative hydrogen energy solutions launched last year. (Earlier post.) The Hydrogen Research Initiative started in July 2017 to support innovative research to reduce the output of carbon dioxide and/or the cost of... Details →


ITM Power to study large-scale production of renewable hydrogen in British Columbia; export to Japan and California

The British Columbia Government Ministries of Energy, Mines and Petroleum Resources and Jobs, Trade and Technology has awarded ITM Power a grant to undertake a Power-to-Gas (P2G) feasibility study. In the initial phase of the project, ITM Power will undertake a techno-economic feasibility study for the large-scale centralized production of... Details →


DGIST, PNNL team develops efficient, low-cost anode material for water electrolysis

Researchers at S. Korea’s DGIST (Daegu Gyeongbuk Institute of Science and Technology), with colleagues at Pacific Northwest National Laboratory (PNNL), have developed a low-cost, highly efficient and ultra-durable core-shell nanostructured electrocatalyst that exhibits an improved oxygen evolution activity and stability compared to that of the commercial noble metal electrodes. They... Details →


Researchers at Washington State University, with colleagues at Argonne National Laboratory and Pacific Northwest National Laboratory, have combined inexpensive nickel and iron in a very simple, five-minute process to create large amounts of a high-quality catalyst required for water splitting. By in situ reduction of the metal precursors, the researchers... Details →


Researchers at the University of Twente’s MESA+ research institute have made significant efficiency improvements to the technology used to generate solar fuels. They fabricated a highly efficient photocathode by spatially and functionally decoupling light absorption and catalytic activity. As reported in a paper in the journal Nature Energy, their silicon... Details →


Shell, ITM Power to build world’s largest hydrogen electrolysis plant in Germany; €20M REFHYNE project

Shell and ITM Power will build the world’s largest hydrogen electrolysis plant at Rhineland refinery, Germany. (Earlier post.) With a peak capacity of 10 megawatts, the hydrogen will be used for the processing and upgrading of products at the refinery’s Wesseling site as well as testing the technology and exploring... Details →


A low-cost, nanostructured composite material developed by researchers at UC Santa Cruz has shown performance comparable to Pt/C as a catalyst for the electrochemical splitting of water to produce hydrogen. An efficient, low-cost catalyst is essential for realizing the promise of hydrogen as a clean, environmentally friendly fuel. Researchers led... Details →


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