The latest research published in the International Journal of Hydrogen Energy offers crucial insights into the impact of steelmaking processes on the hydrogen embrittlement of tempered martensitic steel.
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The paper “WSe₂ modified monocrystalline SnSe₂ nanosheets for hydrogen gas detection and its sensing mechanism” unveils a new method for detecting hydrogen gas using innovative nanosheet materials.
However, improving hydrogen combustion efficiency and minimizing emissions are critical challenges.
A new study titled “Hydrogen Enriched LNG Fuel for Maritime Applications – A Life Cycle Study” has unveiled promising findings that could significantly impact the maritime industry’s approach to fuel sources.
This innovative approach highlights the versatility and efficiency of hydrogen as a clean energy source within the aviation industry.
A recent International Journal of Hydrogen Energy publication explores heat loss in hydrogen/air deflagration within closed pipelines.
The study, published in the International Journal of Hydrogen Energy, explores the environmental and economic impacts of this innovative hydrogen production pathway.
Hydrogen embrittlement is a critical issue in the hydrogen industry, affecting the mechanical properties and longevity of materials used in hydrogen storage and transportation.
This research focuses on flame behavior, crucial for designing and applying safer hydrogen energy systems.
Researchers at Graz University of Technology (TU Graz) led by Prof. Dr. Viktor Hacker are pioneering a method that utilizes iron pellets for safe and efficient hydrogen storage.
