June 2025

The Summer 2025 issue of Global Hydrogen Review begins with an examination of Canada’s role in the hydrogen transport industry, considering current market uncertainty and growing momentum across the region. This brand new issue includes features on blue and green hydrogen, digital technologies, mobility and transportation, valves, and electrolyser technology. The issue also features a cover story from Integrated Global Services (IGS) where Larry Emch explores the technological advancements that help to increase efficiency and reduce CO₂ emissions in steam methane reformers.

This month's front cover is brought to you by Integrated Global Services (IGS).

The road ahead for Canada
Arvind Ramakrishnan and Karen Hamberg, Deloitte Canada, explore the future of the heavy duty hydrogen transport industry, considering current market uncertainty and growing momentum across Canada.

A cost-effective path to decarbonised (blue) hydrogen
Justin Schaeffer, Shell Catalysts & Technologies, discusses how a new selective carbon monoxide oxidation technology is transforming the Shell Blue Hydrogen Process.

Speeding up hydrogen adoption
Adam Kadhim, Topsoe, examines some key technological advances speeding up the adoption of low-carbon hydrogen and facilitating its global transport.

The future potential of green hydrogen
Nora Han, ABB, Switzerland, explores how greater efficiency in the production of green hydrogen can enable market expansion.

Energy transition challenges
Alberto Litta Modignani, NextChem Tech, Italy, examines how green hydrogen and the electrolysis industry are being reshaped by energy transition challenges.

Innovation and collaboration
Chris Gill, Worley, considers how innovation and collaboration within the hydrogen supply chain can help bring down the cost of green hydrogen production, with particular focus on electrolysers and plant infrastructure.

The future is electrifying
Tina Andersen, Hystar, discusses how PEM electrolyser technology can enhance safety and efficiency.

Efficiency solutions
Larry Emch, Integrated Global Services (IGS), USA, explores technological advancements to increase efficiency and reduce CO₂ emissions in steam methane reformers.

Advancements in burner technology
Eric Pratchard and Todd Grubb, Zeeco, Inc., USA, alongside Hector Ayala, Aloke Sarkar, and HS Lee, ExxonMobil Technology and Engineering Company, USA, consider the impact that advancements in ultra-low NOX burner technology could have on hydrogen firing and NOX emissions.

Digital technology and the future of clean energy
Nico Schmaeling, John Crane, Germany, examines how digitalisation can aid the wider adoption of hydrogen energy, through improved efficiency and profitability.

Transforming operational technology
Marcel Kelder, Yokogawa Europe, considers how business models in the operational technology (OT) domain can adapt operations to ensure security and productivity through technological advancements, such as edge machines.

The ace up hydrogen’s sleeve
Danny Nicholas, Rotork, UK, examines how electrification, digitalisation, and automation can make clean hydrogen commercially viable.

Investing for the future
Chuck Hayes, Swagelok Company, USA, explains how using high-quality valves within hydrogen systems preserves and augments system performance and longevity.

Valves for industrial hydrogen
Sanket Walimbe, Trillium Flow Technologies, considers the importance of valves for safety and reliability in industrial hydrogen applications.

Fuel cells for heavy duty applications
Dr Michael George and Dr Christian Gebauer, Heraeus Precious Metals, consider the role hydrogen fuel cells could play in the development of heavy duty vehicle materials.

Decarbonising shipping
Janna Chernetz, Amogy, explores how ammonia-cracking technology has made ammonia a viable, versatile, safe, and scalable source of power for marine transport.

June 2025

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