A multinational scientific team led by UiT has uncovered the deepest known gas hydrate cold seep on the planet. The discovery ...

After spotting the deepest hydrate seep ever, scientists were shocked to discover a deep-sea ecosystem thriving on the Arctic ...

Beneath cold, high-pressure oceans, water and gas molecules clump together into crystalline solids called gas hydrates.

Because inhibitors are important in reducing formation of hydrates in gas streams, we performed a study to investigate and evaluate the accuracy of available tools that predict hydrate formation ...

Experiments show that ensuring oil and gas production under certain pressures and temperatures requires a thorough understanding of the effects of inhibitors on gas hydrate formation and dissociation.

Scientists have found a unique geological and biological complex deep in the Greenland Sea. Methane hydrate mounds, formed by ...

Naturally occurring methane hydrate deposits are potential sources of energy. However, their observation in natural environments remains challenging. Researchers have now developed a one-dimensional ...

For many materials, phase transitions can be influenced by the amount of water vapour surrounding the sample. Water vapour can associate with a solid in many ways, such as adsorb only on the surface, ...

Researchers are studying the role that methane nanobubbles might play in the formation and dissociation of natural gas hydrates, a currently untapped source of natural gas and a chief energy source in ...

A multinational scientific team led by UiT has uncovered the deepest known gas hydrate cold seep on the planet. The discovery ...