Howden Supplies Hydrogen Compressors for the World’s First Container Vessel Operating on Carbon Neutral Fuel

Leading global provider of mission critical air and gas handling products, technologies and services, Howden, has signed a contract with European Energy to supply a hydrogen compression solution. This solution will deliver pure (green) hydrogen as feedstock to e-methanol production, fuelling maritime transportation.  

Image Credit: Howden

European Energy has been designated by Maersk as a key supplier of e-methanol to ensure their shipping fleet undergoes a green transition away from traditional bunker fuel. European Energy is set to deliver 200,000-300,000 tons of e-methanol to Maersk annually by 2025.

To achieve this, European Energy is developing the world´s first largescale commercial e-methanol production facility. The green hydrogen will be provided by a 50 megawatt electrolyzer and it will be compressed by Howden.

Howden will supply five compressor packages, which provide the required hydrogen purity, pressure and flow capacity levels on demand. The turnkey packages require minimal onsite installation and the compressors are easy to maintain throughout their lifecycle. The compact design combines high-level engineering expertise with a minimal footprint, with highly reliable, non-lubricated piston compressor technology delivering 1,370 kg/hr of green and pure hydrogen to support a significant reduction in CO2 emissions.

Salah Mahdy, Global Director of Renewable Hydrogen at Howden, comments: “While renewable energy is becoming more and more common in the heavy transportation industry, this project marks the beginning of CO2-neutral shipping at a large-scale, and is a significant step towards ocean vessels and the maritime industry using 100% renewable energy.

“The International Maritime Organisation has targets to cut the global shipping industry’s annual greenhouse gas emissions by at least half by 2050, compared to 2008 levels, so renewable energy options like those provided by Howden hydrogen compressors play a vital role in meeting these goals.”

Anders Brendstrup, Head of EPC in PtX at European Energy, said: “Collaboration with partners across the industry is necessary for creating a value chain, scaling green fuel production, and planning future total cost of ownership. This also requires cost efficiency, reliability and safety. Using Howden’s compression systems to connect renewable energy production and electrolysis with transmission and distribution is a key step for us.

“We are delighted to have selected the best possible partner based on their long-term experience and outstanding engineering. Howden’s contribution will make our ambition to support zero-emission mobility through an unparalleled technologic approach a safe and realistic goal.”

Howden is recognised as a global leader of hydrogen compression solutions with over 100 years of experience in highly innovative hydrogen compression solutions. Howden delivers reliable hydrogen compression solutions on a number of industry leading projects relative to storage, steel, and mobility, and accelerating the adoption of hydrogen globally. Its technology can handle and optimise hydrogen across the value chain from production, to storage, distribution and end use such as refuelling stations,  Power-to-X applications and heavy industrial purposes.

Tell Us What You Think

Do you have a review, update or anything you would like to add to this news story?

Leave your feedback
Your comment type
Submit

While we only use edited and approved content for Azthena answers, it may on occasions provide incorrect responses. Please confirm any data provided with the related suppliers or authors. We do not provide medical advice, if you search for medical information you must always consult a medical professional before acting on any information provided.

Your questions, but not your email details will be shared with OpenAI and retained for 30 days in accordance with their privacy principles.

Please do not ask questions that use sensitive or confidential information.

Read the full Terms & Conditions.