Found 16 results for 'battolyser'

NH3 Event announces big names for third annual Rotterdam conference
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NH3 Event announces big names for third annual Rotterdam conference

Rianne Vriend-Vrijenhoef March 13, 2019

After two successful years, the NH3 Event returns on June 6 & 7 in Rotterdam, the Netherlands, for the third edition. Ammonia is still an underestimated route to achieving a sustainable energy economy. At the NH3 Event, members of the energy community, including the public, NGOs, policy-makers, industries, and academics — including well-known experts, developers, and scientists — gather to present the latest research results and commercial achievements, and to discuss new application fields and business prospects for ammonia in energy solutions. And this year with very interesting names!

Fossil Energy Companies Turn to Ammonia
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Fossil Energy Companies Turn to Ammonia

Trevor Brown November 09, 2018

In the last 12 months ... National oil companies in Europe and the Middle East are looking to satisfy East Asian demand for clean hydrogen by exporting carbon-free ammonia. One of the biggest global LNG exporters is investigating ammonia for the same market, as it considers Australia's future as a renewable energy exporter. Oil majors are assessing ammonia's role in implementing an affordable hydrogen economy, looking toward fuel markets in California and Europe. And the biggest coal producer in China is funding the development of "the world’s first practical ammonia-powered vehicle."

Affiliated NH3 Groups Become a Force for Advocacy
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Affiliated NH3 Groups Become a Force for Advocacy

Stephen H. Crolius November 02, 2018

In the last 12 months ... The vision of a worldwide network of affiliated ammonia energy advocacy groups drew closer to reality.  This a step toward fulfillment of a goal that was conceived in 2016 when the NH3 Fuel Association convened a Global Advisory Board.  The idea was to launch a body that “could help ammonia energy proponents in different countries organize nationally or regionally focused ammonia energy advocacy bodies.”  Over the last year, all four of the Advisory Board’s 'Ambassadors' played leadership roles on behalf of ammonia energy in their respective countries.

Power to Ammonia: alternative synthesis technologies
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Power to Ammonia: alternative synthesis technologies

Trevor Brown June 01, 2017

The Institute for Sustainable Process Technology (ISPT) recently published a detailed analysis of three business cases for producing renewable ammonia from electricity: Power to Ammonia. The feasibility study concludes that, in the near term, ammonia production using clean electricity will likely rely on a combination of two old-established, proven technologies: electrolysis and Haber-Bosch (E-HB). To reach this conclusion, however, the study also assessed a range of alternative technologies, which I summarize in this article.

Power to Ammonia: The OCI Nitrogen - Geleen case
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Power to Ammonia: The OCI Nitrogen - Geleen case

Trevor Brown May 18, 2017

The Power-to-Ammonia feasibility study includes an assessment of the costs and benefits of producing ammonia from renewable energy at OCI Nitrogen's existing production site in Geleen. Of all the companies who joined forces in the Power-to-Ammonia project, OCI is the only ammonia producer. Its business case for making carbon-free ammonia is especially interesting therefore: not just because of the company's deep understanding of the ammonia market and available technologies, but also because it faces corporate exposure to the financial, operational, and social risks of relying upon a fossil-fueled technology in a carbon constrained future.

TU Delft’s Battery-Electrolyzer Technology
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TU Delft’s Battery-Electrolyzer Technology

Stephen H. Crolius January 13, 2017

On December 14, the journal Energy & Environmental Science published an article on a new technology, “Efficient electricity storage with a battolyser, an integrated Ni–Fe battery and electrolyser.” The lead author is Fokko Mulder, Professor of Materials for Energy Conversion & Storage at the Delft University of Technology (TU Delft) in the Netherlands. The system developed by Mulder and his collaborators accepts electricity from an external source and stores it in the conventional manner of all batteries. The twist is that when the battery is fully charged, any additional incoming electricity is used to generate hydrogen and oxygen via electrolysis. The technology may prove to be a valuable element in a grid-scale ammonia-based energy system.