With the global energy landscape in flux, the pursuit of novel combustion technologies has become increasingly critical.
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In an era where hydrogen is poised to play a transformative role in advancing global decarbonization strategies, the integrity of underground storage systems emerges as a pivotal concern.
The global emphasis on sustainable energy solutions has put hydrogen fuel cells, particularly Proton Exchange Membrane Fuel Cells (PEMFCs), at the forefront of modern energy research.
International Energy Agency’s 2019 data forecasts a 1.3% annual rise in energy demand by 2040 under current policies, underscoring the urgency for alternative energy solutions.
Recent studies depict a critical statistic—hydrogen storage demands temperatures as low as -253 °C or pressures reaching 700 bars, posing technological hurdles that are not easily surmounted.
In a world increasingly focused on reducing emissions, hydrogen internal combustion engines (H2ICE) offer a unique blend of efficiency and environmental considerations.
In the quest for sustainable energy solutions, the co-generation of heat and hydrogen through the high-temperature oxidation of aluminum in steam presents an intriguing possibility.
Article written by Dr. Albert Harutyunyan. The role of hydrogen in the global energy transition is becoming more and more…
With the energy sector witnessing an unprecedented transition from fossil fuels to renewable sources, the role of energy storage technologies (ESTs) in stabilizing the grid and reducing dependency on fossil fuels is gaining focus.
By 2050, the European Union aims to significantly boost hydrogen production to combat climate change by transitioning to low-carbon energy sources. This shift is bolstered by hydrogen’s potential to act as a zero-carbon fuel in various applications, including its integration into gas turbines for power generation.
