Advances in Hydrogen Gas Generation for Sustainable Laboratories
As gas chromatography instruments demand ever higher hydrogen purity, many labs are also under pressure to reduce environmental impact and operating costs.
This webinar explores how recent advances in hydrogen gas generation are addressing both challenges at once. Dr. Ed Connor and Ian Cameron will discuss the current limitations of traditional gas supply methods and how modern on-site generation is reshaping laboratory workflows.
As an attendee, you will gain insight into how today’s technologies can support consistent performance, greater reliability and more sustainable lab operations without compromising analytical quality.
Attend this webinar to:
- Learn how a gas generator can improve your lab’s uptime
- Understand the operational efficiencies and cost savings you can get from an in-house gas generator
- Gain insights into the sustainable, energy efficient benefits of on-site gas generation
Presenter: Ian Cameron (Hydrogen Design Team Lead at PEAK Scientific)
As the Design Team Lead at PEAK Scientific Instruments, Ian guides a multidisciplinary team of engineers and designers in creating advanced scientific equipment for laboratory and analytical applications. With a background in mechanical engineering and physics and 15 years in the manufacturing and design industry, Ian brings a strong understanding of the scientific principles and engineering practices that underpin high performance instrumentation.
Presenter: Ed Connor, PhD (Product Manager at PEAK Scientific)
Dr. Ed Connor joined PEAK in 2013 as a gas chromatography (GC) product specialist before moving on to product management. He’s been working on many collaborative projects with PEAK customers and major instrument manufacturers worldwide. The main focus of these collaborations has been looking at conversion from helium to hydrogen carrier gas for GC applications. Ed completed his doctor of science degree at ETH Zurich in 2007 using GC-Mass Spectrometry (GC-MS) to look at herbivore induced plant volatiles and their interaction with beneficial insects. He then joined the University of Zurich where his work focused primarily on floral volatiles analysis using a variety of volatile collection methods, GC-MS and GC-Flame Ionization Detection.
