Changing to GPro® 500 in situ TDL sensors has reduced measurement time from 20 seconds to 2, and almost eliminated analyzer maintenance.
AkzoNobel Specialty Chemicals (Amsterdam, the Netherlands; www.akzonobel.com) and Gasunie New Energy have joined forces to investigate the possible large-scale conversion of sustainable electricity into green hydrogen via the electrolysis of water.
Intended for Delfzijl in the Netherlands, the installation would use a 20 megawatt water electrolysis unit, the largest in Europe, to convert sustainably produced electricity into 3,000 tons of green hydrogen a year – enough to fuel 300 hydrogen buses. A final decision on the project is expected in 2019.
The planned 20 megawatt facility is an important step towards scaling up the electrolysis technology. So far, the largest planned electrolysis unit in the Netherlands has a capacity of 1 megawatt. The eventual aim is to be able to build installations that convert and store sustainable energy in the form of hydrogen on an even larger scale (from 100 megawatts).
AkzoNobel and Gasunie complement each other in the required expertise for this project, which includes gas transport and storage, electrolysis and handling of hydrogen. Both companies want to play an active role in the transition to a CO2-neutral economy, and the project is in line with their respective initiatives in renewable energy – including hydrogen.
“Achieving the Netherlands’ CO2 reduction targets and the corresponding transition in the energy system will be a huge challenge,” said Ulco Vermeulen, member of Gasunie’s Executive Board. “This requires not only vision, but also immediate action and concrete collaboration.
“We see ‘power to gas’ not only as a promising technology, but also as one that will be necessary to achieve a fully sustainable energy mix by 2050. Hydrogen also plays a crucial role in achieving the emission reduction target set by the Dutch government for 2030, i.e., a reduction of CO2 emissions by 49% compared to 1990. To make sure we have enough hydrogen in 2030, we will need to take steps now to validate the technology at different scales.”
Added Marcel Galjee, Energy Director at AkzoNobel Specialty Chemicals: “Industry is important for the economy, but is also responsible for a large percentage of CO2 emissions. Only with far-reaching change of its industrial activities can the Netherlands achieve the international climate targets. During this transition, new value chains and revenue models can emerge across sectors through collaboration between companies.
“The vast majority of the more than 800,000 tons of hydrogen used by Dutch industry each year is produced using natural gas. Replacing this by sustainably produced hydrogen will reduce CO2 emissions by seven million tons. However, the real potential is in large-scale production as the basis for green chemistry.”
Both companies agree that the northern part of the Netherlands is perfectly positioned to develop a green hydrogen economy, due to the large-scale production and import of green electricity, the existing chemical industry, the current gas transmission infrastructure, the knowledge infrastructure and the support within the Northern Innovation Board.
The Chemical Activity Barometer (CAB), a leading economic indicator created by the American Chemistry Council (ACC; Washington, D.C.; www.americanchemistry.com), rose…
Wood plc (Aberdeen, Scotland; www.woodplc.com) has been awarded a prestigious multi-million-dollar contract by the Oil and Gas Climate Initiative Climate…
Nouryon (formerly AkzoNobel Specialty Chemicals; www.akzonobel.com) will double production capacity for solvent-based organic peroxides at its Los Reyes, Mexico site,…
McDermott International, Inc. (Houston; www.mcdermott.com) announced a sizeable contract award from Unipetrol RPA for engineering, procurement and construction management (EPCM)…
Arkema (Colombes, France; www.arkema.com) has successfully started up a Kepstan PEKK (Poly-Ether-Ketone-Ketone) plant at its site near Mobile, Alabama. This…
Tunable Diode Laser Spectroscopy in Critical Applications
Non-Contacting Gas Sensors Minimize the Risk of Corrosion to Plant Equipment.
5 ways to Optimize Production of Polymers and Intermediate Petrochemicals
7 Ways to Achieve Process Safety in Chemical Production