New free white paper from Servomex highlights how to overcome the challenges and demands of gas analysis for a greener future
Crowborough, UK – July 2025 (PR) : With hydrogen recognized as a vital energy source for a low-carbon future, it also presents challenges, including the production of greenhouse gases, as well as high production costs, storage limitations, and flammability risks. Servomex has released a new white paper highlighting how to address these challenges.
With hydrogen offering a real opportunity to fuel the energy transition and limit global warming, gas analysis plays a vital role in ensuring purity, safety and operational efficiency.
Servomex, as the global industry leader in gas analysis, develops technologies to help power a greener future through its portfolio of cutting-edge gas analyzers that address the specific demands of these key applications.
These include the SERVOPRO MultiExact 4100, a renowned multi-gas analyzer for ASU plants, which measures simultaneously up to four gas streams including O?, CO?, and moisture.
In industrial gas applications, where accurate O? and moisture measurements are vital, the SERVOPRO MonoExact DF310E is the perfect solution. Designed for precision trace-level measurement, it combines a digital Coulometric O? sensor with a non-depleting Paramagnetic sensor option. This ensures reliable performance in various applications, from N? and Ar production to specialty gas blending.
The white paper also highlights new opportunities and technologies including blue hydrogen and autothermal reforming (ATR). It also reveals a case study where Servomex analyzers including the SERVOTOUGH SpectraExact 2500F and SERVOTOUGH Oxy 1900 were used in a green steelmaking plant to ensure the safety, efficiency and reliability of the H? systems in the DRI process.
Download the white paper now and discover how precise gas analysis can ensure H? production is safe, efficient, and ultimately, sustainable, and how these technologies are crucial for making H? a viable part of the future of energy.
