Cross-border infrastructure plays a pivotal role in decarbonizing industries

20-07-2020 | Project results | P2Integrate

The case of ammonia production in the Antwerp-Rotterdam-Rhine-Ruhr-Area

Cross-border infrastructure plays a pivotal role in decarbonizing industriesThe research institutes DVGW-EBI, Dechema (both Germany), EnergyVille/VITO (Belgium), and VoltaChem/TNO (the Netherlands) have joined their expertise and conducted a high-level study on what cross-border challenges and opportunities can be identified for the production of ammonia, a key industry in the Antwerp-Rotterdam-Rhine-Ruhr region. The three analyzed sites are located within a 185 km radius and combined produce almost 2 million tons ammonia per year, consuming large amounts of electricity and natural gas for energy and feedstock in the process.

The European Commission with the Green Deal has set out on an ambitious pathway aiming for a significant reduction in CO2 emissions by 2030 and carbon neutrality by 2050. At the same time many process or technology specific projects are being initiated by the industrial sector ranging from carbon capture applications (CCU and CCS) to the replacement of fossil fuels with carbon free molecules (e.g. electrolyzer based hydrogen) to serve as feedstock and energy carriers.

Today, industrial clusters in geographical proximity are highly interconnected benefiting from joint infrastructures such as harbours, pipelines, and power grids within countries and across national borders. But what are the infrastructure requirements of the future serving a carbon-neutral chemical industry? Is new infrastructure needed or can existing assets be repurposed, e.g. can the natural gas grid in part be utilized for hydrogen or CO2 transport and would potential capacities be sufficient to carry the quantities of electrons and molecules needed? How could defossilization pathways for the energy and feedstock supply of large chemical sites look like when based on renewable gases (hydrogen from electrolysis with or without a methanation step, biogas or syngas from biomass) or novel and large-scale processes (methane pyrolysis, CCS)? Which compromises need to be accepted between fossil energy supply and steadily growing supply of renewable energy to favour an acceptably quick transformation?

The research consortium analyzed and compared four technically feasible routes to carbon neutrality for the three ammonia sites, taking into account the evolution of key drivers and calculating the CO2 emission reduction potential and production costs along the four pathways until 2050 and beyond.

The results of the trilateral research collaboration identify challenges shared by all three sites while better understanding individual characteristics for each location. For example, the pathway of steam methane reforming with CCS application has been identified as a cost competitive pathway for all three sites, but it would require the infrastructure for approximately 2.7 million tons per year of CO2 long-term storage. This potential pathway results in a shared challenge with technical, regulatory, and societal acceptance dimensions in all three countries. On the other hand, harbor or costal locations, such as in Antwerp, may offer future opportunities for molecule imports by transforming shipping terminals or access to large-scale offshore parks in the North Sea without in-country grid improvement projects.

The decarbonization of industrial processes will require site-specific solutions, but the research shows that they need to be developed within an integrated infrastructure in transition. It will be essential to look beyond the spatial limits of an industrial cluster and political borders to make the transition an economic and sustainable success.

Follow-up project

The Trilateral Infrastructure Study in Phase 1 will be continued in a follow-up study, which will be broadening the scope from ammonia to other application areas of the chemical industry, such as methanol and ethylene. Based on the results of this new study, which is currently being prepared, the consortium will also look into more industrial clusters. "This will give us a better understanding of the infrastructural challenges that the industrial clusters are currently facing when it comes to de- and recarbonization and meeting the Green Deal targets. And provide insights into the possible routes towards a climate neutral future", explains Martijn de Graaff, Business Manager at VoltaChem. "We are currently looking for petrochemical companies, chemistry clusters and provides of infrastructure who would be interested in participating in the follow-up studies."

Background information Trilateral Infrastructure Study

The Trilateral Infrastructure Report can be found here

An online presentation of the report is also available: 

 


Would you like to know more about this study or are you interested in the follow-up? Please contact business manager Martijn de Graaff.

On July 29th, VoltaChem's Floris van Beek, one of the researchers who participated in the Trilateral Infrastructure Study, will talk more in-depth about the results of this study and the report during the online session of VoltaChem's Monthly Munchies

 

Share this page:

Follow us on Twitter

2 jun 2020 at 02:00
Earl Goetheer, technical lead at VoltaChem, will be one of the national experts at the online conference. Want to know more about Earl? Check out our recent interview with him: voltachem.com/news/pleased-t… twitter.com/HollandChem/st…
25 mrt 2020 at 01:00
Our will present at the online conference on CO2 Utilisation this morning. Topic: Strategies for Integrating CO2 capture and conversion twitter.com/mkarus/status/…
17 mrt 2020 at 01:00
Just out: the 1st VoltaChem Update of 2020. Missed it? Check it out here mailchi.mp/98c8d2238380/v…… and sign up for the next edition: voltachem.com/newsletter
16 mrt 2020 at 01:00
Our first VoltaChem Business Community Event 2020, to be held on Tuesday March 24th, has been cancelled. We are exploring alternatives or postponement to a later date.

Powered by: