Browsing: Research

A recent study published in the International Journal of Hydrogen Energy provides measured insight into how photovoltaic (PV) and wind electricity supply chains are reshaping the carbon profiles of green hydrogen in Italy and the UK.

The concept of a digital twin—creating a virtual representation of a physical system to simulate its real-time operations—has seen increasing adoption across industrial applications.

The rise of hydrogen as a pivotal component in the global decarbonization initiative invites both promising prospects and substantial challenges.

In the face of climate change’s escalating economic threat, often likened to a destabilizing force within global markets, economic resilience becomes a non-negotiable asset.

Hydrogen energy has long been heralded as a potential cornerstone of sustainable energy systems. However, the feasibility of integrating hydrogen into the energy landscape depends heavily on efficient supply chain management, particularly in countries with significant energy demands like China.

Analyzing recent advancements, the study of hydrogen and ammonia as alternative fuels for micro gas turbines has gained momentum.

The quest for sustainable energy solutions has propelled hydrogen production to the forefront of global discourse, with biomass emerging as a key player in this endeavor.

Durability and operational efficiency of proton exchange membrane fuel cells (PEMFCs) are fundamental issues in the push towards their large-scale commercialization.

With the global energy landscape in flux, the pursuit of novel combustion technologies has become increasingly critical.

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.