The transition from fossil fuels to renewable energy sources, particularly hydrogen, has
emerged as a central strategy for decarbonization and the pursuit of net-zero carbon …

Hydrogen has emerged as a promising alternative to meet the growing demand for
sustainable and renewable energy sources. Underground hydrogen storage (UHS) in …

Hydrogen can compensate for the limitations of other renewable energy sources affected by
external factors (seasons, weather) and help transition the energy mix from high‑carbon to …

Underground hydrogen storage is critical for renewable energy integration and
sustainability. Saline aquifers and depleted oil and gas reservoirs represent viable large …

Large-scale underground storage of hydrogen gas is expected to play a key role in the
energy transition and in near future renewable energy systems. Despite this potential …

Hydrogen future depends on large-scale storage, which can be provided by geological
formations (such as caverns, aquifers, and depleted oil and gas reservoirs) to handle …

This study reviews rock-fluid interaction during the underground hydrogen process in
depleted gas reservoirs. According to the review, although over 700 publications can be …

Renewable energy production is limited by the fluctuations limiting their application.
Underground hydrogen storage (UHS) is one possible alternative to reduce the gap …

Underground hydrogen storage in depleted gas reservoirs is a promising and economical
option for large-scale renewable energy storage to achieve net-zero carbon emission. While …

Concerns regarding the anthropogenic levels of greenhouse gas emissions and their
climate change consequences have forced the energy community to look for clean fuels and …